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CT 03-01; LA COSTA RESORT & SPA; HEC-2 ANALYSIS OF SAN MARCOS CREEK; 2002-08-07
RICK ENGINEERING COMPANY San Diego • Riverside • Orange • Phoenix • Tucson Water Resources Division August 7, 2002 Mr. Howard H. Chang, Ph.D, P.E. P.O. Box 9492 Rancho Santa Fe, Califomia 92067 SUBJECT: PRELIMINARY HEC-2 HYDRAULIC ANALYSES OF SAN MARCOS CREEK AND THE NORTH TRIBUTARY STREAM FOR PROPOSED GRADING WITHIN THE LA COSTA GOLF COURSE IN THE CITY OF CARLSBAD, CALIFORNIA (RICK ENGINEERING COMPANY JOB NUMBER 13952) Mr. Howard H. Chang: The La Costa Golf Course and Resort is an existing development that is located east of El Camino Real Road and south of Costa Del Mar Road in the City of Carlsbad, Cahfomia. See the Vicinity Map attached. San Marcos Creek flows through the eastem portion ofthe golf course toward the El Camino Real Bridge and ultimately to Batiquitos Lagoon. There is also a tributary stream that flows through the northem portion of the golf course and confluences with San Marcos Creek just upstream of the El Camino Real Bridge. Herein referred to as the "north tributary". There is grading proposed by the La Costa Resort in the northem and eastem portions of the golf course as well as the employee parking lot near El Camino Real. We have prepared existing condition and post-project condition hydraulic analyses of San Marcos Creek and the north tributary to determine impacts to the 100-year floodplain resulting from the proposed grading. This is a request for your review of the hydraulic analyses. The U.S. Army corps of Engineers HEC-2 Water Surface Profiles program was used to determine the water surface elevations (WSELs) in San Marcos Creek and the north tributary. The existing condition HEC-2 cross-sectional geometry data was obtained from a digital terrain model compiled by photogrammetric methods using aerial photography dated August 3, 2001. The post-project condition cross-sectional geometry data was based on the proposed grading shown on the "La Costa Resort HEC-2 Workmap for San Marcos Creek and North Tributary," Sheets 1-5 of 5, dated August 7, 2002 located in Map Pockets 1 and 2. The horizontal variation of Manning's n-values along San Marcos Creek and the north tributary were based on a field visit on July 19,2002. The tennis courts and the driving range at the southwest portion of the project are surrounded by woven fences made of cloth material. Since 5620 Friars Road • SanDiego • Califomia • 92110-2596 • (619)291-0707 • FAX: (619)291-4165 • www.rickengineering.com Mr. Howard H. Chang Page 2 August 7, 2002 these areas are within the floodplain, the Manning's n-value was adjusted to account for the obstmcted flow through the fences. The calculations for the adjusted Manning's n-value are included with this letter as Attachment 1. The effective Federal Emergency Management Agency (FEMA) 100-year flow in San Marcos Creek is 14,700 cubic feet per second (cfs). The 100-year flow of 1,900 cfs in the north tributary stream was obtained from a study prepared by Rick Engineering Company entitled, "Hydrologic and Hydraulic Study for Rancho Carrillo Local Facilities Management Plan Zone 18" dated January 12, 1995 (Job Number 12119-C). The starting WSEL in San Marcos Creek at El Camino Real was determined from a study prepared by Rick Engineering Company entitled, "HEC-2 Hydraulic Analysis for La Costa Employee Parking Lot" dated September 25,1991 (Job Number 11347). The existing condition HEC-2 resuhs show that the house at the north end of cross-section 280 is inundated by approximately 0.4 ft during the 100-year storm event. The existing condition HEC-2 output and cross-sectional plots are included with this letter as Attachment 2 (FN: LCGCEX.HC2). The post-project condition HEC-2 resuhs show that WSELs for San Marcos Creek and the north tributary increase by a maximum of 0.02 feet within the golf course and 0.05 feet at the El Camino Real Bridge over the existing WSELs. Therefore, the impacts of the proposed grading are not a significant impact to the floodplain for the creeks. The post-project condition HEC-2 output and cross-sectional plots are included as Attachment 3 (FN: LCGCP.HC2). Please review the attached HEC-2 hydraulic analyses and HEC-2 workmaps and respond with your comments. If you have any questions, please call Roberta Cronquist at (619) 688-1454. Sincerely, RICKENGINEE ANY Dermis C. Bowling* R.C.E. #32838, Exp. 06/06 Prinicpal DCB:KW:nd.001 Attachments CITY OF OCEANSIDE HIGHWAY CITY OF VISTA CITY OF SAN MARCOS JECT TION CITY OF ENCINITAS VICINITY MAP NOT TO SCALE ATTACHMENT 1 ADJUSTED MANNING'S N-VALUE CALCULATIONS TO ACCOUNT FOR FLOW OBSTRUCTED BY FENCES l^^^sl NGINEERING ^ ^^^T^ / COMPANY o-=f/z3/oz, 5620Friars Road-SanDiego, CA 92110-2596 -Phone: 619-291-0707 •www.rickeng.com I 3*?S'"^—' .zL. L. o _ _ O.?^ L< a^r^ Q,b3 |^l ^z-) 4^(i--z)>'^ - Vl r I Jour. Itomrrli I'.S. Crnl. Hunrr Vol. 6. No. C. bf|it.>Ocl. tUiT. |i. A METHOD FOR ADJUSTING VALUES OF MANNING'S ROUGHNESS COEFFICIENT FOR FLOODED URBAN AREAS By H. R. HEJL, Jr., Lawrence. Kans. I/|/i«ir«i(.~A mcihitd h prcwntcd fur tidjuUine vuluo of Munning'ii ti|>liiic«N i.iK.'li>cH:iil I'or n<HHli.-it iirb.ift itica> iin llic luMk iif lltc dciiMty tiT t>iiilt<ii>|:« till u n<MiO plain anj «crilicU ruii|!liiHMi» ciiciriciciu» ftir (Mlural IiiJiiioiiN An urhrin routiluK'>NC«K.MlWu:iiU'jnlKculcul.iK'Ulocniiil.ucihc lU-f'tki'l^ct'' prnfik-t to wilhin 0.U6 nwwr lor licpiht uf lluw kui Ituin 0.6 :ici jtnil pluk or minut 10 porcem for dcpitu bciwccnJD.6 and 2 mctert. IA meihod is presented here to allow users ofthe U.S. Geo- logical Survey's step-backwater and Hoodway analyses, (mputcr program E431 (Shearman, 1976), to adjust values Manning;'* roughness coefficient (n) for flooded urban cas. Because few. if any, verified values of « currently arc available for urban areas, users of the step-backwater and Idodway analyses program have a choice of either (I) iminating the portion of the cross section occupied by buildings and selecting a value of n for the areas between the Miildings, or (2) using the total area ofthe cross section and Biimating a value of/i that includes the effect ofthe build- Thc first choice is unsatisractury because the data :mcnts are too stringent and the second choice has not efined adequately by verified values of n. Thc method icd here is an effort towards the development ofa tech- nique for deicrmining values of n that include the effects of tiildings. The method requires verified values of n for natu- I condilions and estimates of the areas occupied by build- 'ingi in a cross section and along the profile parallel to the rection of flow. I DERIVATION In the technique described below, the hypothesis for tjusting thc value of n for buildings in a flood plain is based I the assumption that only the portion ofa flood plain not occupied by buildings can convey water downstream and tal streets are purallcl-and perpendicular t» the direction of >M. The roughness coefflcicnt for a cross section including buildings is derived by letting the total discharge. Qu in •ubic meters per second, be equal to (I) Bhcre n„ A„ /?,and S, represent Manning's roughness cocf- 'cient. area in square meters, hydraulic radius in meters, and ^'^-•ction slop; in meters per meter, ofthe individual openings I J^een the buildings. The total discharge can also be ^^ressedus I (2) ifthe roughness coefficient, n^. compensates for the area in« cross section occupied by buildings and if A rand tare total area and hydraulic radius, respectively. Equating the right side of equation I and equation 2 resulu in the following: 1>4TV%'/2« jl^p 2/35 1/2. (3j For shallow depths of flow and constant valueis of/i„ equa- tion 3 can be simplified to or 2^, lA^""* ft',"*' (4) (5) (6) where n» is the equivalent roughness coefficient for a crpsi section through a row of buildings perpendicular to the direction of flow and the ratio of toial area to summation of the individual areas of the openings is approximated by Ihe substitution of widths as shown in figure I. The roughness coefTicicnt for a reach along a proflie paral- lel to the direction of flow is derived by proportioning, on the basis of length, roughness coefflcients for cross section! including buildings and roughness coefficients for cross »ec- tions without buildings. The poriion ofthe roughness appli- cable for cross sections including buildings is equal lo ^ • (7) An. 'b» where Lj b the total length ofthe reach and XL.is the sum- mation ofthe distances between thc rows ofbuildings paral- lel tothe dtfcetien of fl©w as shown tit figtire f. It foHows that"' the portion ofthe roughness applicable for the cross sections without buildings can be expressed as (8) Ml I I I I I I I AUJU.S1 MENT OF MANNING S KOUOMNE.S.S COEI^HCItNl FOR FLOODtLl'uRBAN AREAS PLAN VIEW Subsection width 5 W-j- aEWo - ^1 • WgtWj* W^^Wg A A w -w •Urbonlzed flood ploln Fiiii nr l.-|>iafrjMn of ij«li/i-d urhan area wk.c Ilu- Mnxitare parallel and pcipc-ndicular lo llictlircvlitm of Itim. bu !?3„? coemcent between the rows of buildings on the hydraulic radius, equations 7 and U could ll*^ ^ ' ""^^ " '"""'^ 'f'^ ^ »° d«cribe the roughnesscocfHcient for urban bu^mgs in a cross section in equation 6. If it were not for the areas. If cross sections Including buildingsand crosssec.ions expansion losses, contraction losses, and effects of the sides without buildings are located as shown in figure I. the U.S. I IIEJI. 643 Survey's sicp-hackwater and floodway analyses which utilizes Manning's equation, computes the 'sion I0.SSCS as being equal 10 one-half of the change in head between cross sections in expanding reaches, intraciion losses as being equal to zero, and Ihe hydrau- ^liusas including thc additional wetted perimeter of the I of the buildings. Using total cross-sectional area, anal- yses of hypothetical data indicate that the expansion losses uM the effect of Ihe sides of thc buildings can be approxi- ni|ed by an empirical adjustment of (9) vummation of roughness coefficients for subreaches [ding buildings, subreaches without buildings, and the ' adjustment results in an urban roughness cocfll- ual to T1 in^ding bui crBirical adji cifflt, /!«. equ; I I Ml. 'An. (10) (11) where n. is the adjusted value of Manning's n for urban areas JsA with total cross-sectional area. If equation 6 is substi- uV for n». equation 11 can be simplified to m77"m-'^-•» .A '* roughness coefficient for thearea between the •ujjjnngs on a flood plain, IK,/ I \V„ is the ratio of total "at. summation ofthe individual widths between the luffling!; ofa cross section through a row of buildings per- te^cular lo thc direction of flow, and XtJL, Uthe ratio <f» summation ofthe distances between rows ofbuildings 0 m total length ofthe reach along a profile parallel to the ircction of flow. Jl APPUCATION OF METHOD *n»e steps required for applying the method for adjusting ahjjts of Manning's n, for urban areas are as follows: **«!.' acquirements are basically the same as Pose for nonurbani/.cd areas. The cross sewions are sub- divided lo separate the main-channel flow from the flow tween the buildings in a flood plain. The urban rough- 4 coefficient; n,. is applied only to thc subsections that include buildings; the flood plains on the lefl and right tanks are evaluated independently. A subdivided cross jl^tion is shown in figure I. iiep 2: Estimate tbe mio ®f total width, iVj, testrnttnatlon Jihe widths of individual openings, XW,, for a cross sec- n through a row of buildings of average density in the ch of flood plain being evaluated perpendicular to the 'V 'jthmofflow as shown infigurc L This estimate can be 'Mp in the field, by aerial reconnaiiksance.orfroma map. Step 3: Estimate thc ratio of thc summation of distances between rows of buildings, IZ.,,. to the total length of reach, L,, parallel to the direction of flow for the reach in step 2. Step 4: Select a Manning's roughness coefficient, n„ for the open area between the buildings. Open areas include fea- tures such as fences, trees, shrubbery, and streets. Step 5: Compute the urban roughness coefficient, n,, from equation 12 and use the roughness coefficient for the sub- •ections. including buildings, directly in thc step- back water and floodway analyses program; use total arc^ ' uf ihu cross section. DESCRIPTION OF URBAN-AREA MODELS Urban-area models similar lo the urbanized flood plain shown in figure I consisting of 30S-meter channels of uni- form depth with vertical walls at sides were used to evaluate the enipirical adjustment poriion ofthe urban roughness ctK-fficient. Nine buildings were spaced on 30-meier centers in rows perpendicular to the direction of flow. The rows of buildings were spaced on 61-meter centers in the reach except for one of the combinations shown in Uble I where the rows were spaced on 30-meier centeni. The dimensions of the buildings and slope of the channel were varied for the nine combinations shown in uble I. A con- stant roughness coefficient value of 0.04Q for the area be- tween Ihe buildings was used for all the combinations. Mod- el A was designed to produce the most reliable water-surface profiles available by using cross sections located I meter downstream, at downstream edge, at upstream edge, and I tneter upstream from each row of buildings. Model B is the suggested simplified model using only the cross sections located I irtclcr downstream and I meter upstream from each row ofbuildings and adjusting for thearea occupied by buildings by applying the method for urban roughness coef- ficient./!,,. TA»tt I. — Vrban^^rra nutdrlromhiruiUons shown in figurr J Ifcach row wclud^i 9 buildinitii on JOmclrr ccnicn with ihe r»»»» on 61- mcicf c«mert «xcrpi in cunibiKuiun 4. which ua^ on 30-mcicr ccnicri] Combi- naiion No. Ratio of luiai wtdih to tuMmaiion of widihiuf •pcainci in C(«M Kciiun Ratio of aummallon of dUiancci between rows or buUdings to total teacb kniib Flood- flain slope (m/m) Urban roufhneu coefricicnl 1 1 3 4 s I.S7 t.«7 a.oo 3.00 a.oo .10 AO .40 .•0 .10 M- .«0 .SO ^02 .002 JOO I .002 O.OSO .OSB .064 .069 .06S .06 B .002 .002 .076 .lOS I I •^544 ADIU.STMrM OF MANNIN(i-S ROlKill.MAS COF.FI T T ICICNI FOR Fi.OOI)r:l> URIIAN ARfAS 493 mS/s Wolsr-surfoc* profile from Modal A ZZ7 m'/s „Wo(«r. surf oca profii* from Modol B using Oroi»down xon» t)««<aMn build ing I 54. «> 100 OlSTANCt AtONG PROFILE. IN METERS i ''"".^d ™5?T« "'TJ''*^'*''*"'''" P'"^'^ from model A C J """" ""^""^ COeffkicnrC^ I _. MODEL RESULTS undn "'"P'"**'°" of **ater-surface profiles for models A •nd B were made with the U.S. Geological Sun-^, ,tcv • backwater and floodway analyses, computer prograTE4T Although the program uses U.S. custorhary units i^rresults «me Tb TH' '° ^' ^^^^ ^annftlg's I aZuJ^ ° ^ Because model A used mo« " ^"""'ed to produce ^« rehable water-surface profiles than model B whic" uved total cross-.sect.onaI area and the urb.in roughnessc«f- | r.c«n,t A comparison ofthe water-surface profiles nTi duced from mc^el A a^d model B forcombii^.fo °J iaUrwL'" ^''r? \ « ""''^^ emulard the |07;7tet;;i^^^^^^^^ gexccp for combination I. which is consisientK 5 ^rcenl fteads,„.,,,^ u the mean velocity m the ection. and , U the acceSon 200 FiCllBEj. I -Deplh versa, pcrcco. devia.ion in dcp.h of flow when compar- »| Ihe resulu of model Bio model A. TLTT' ^"T"" «*f«"ding reaches Ivd;, °f »he builSing sides on th" Mraulic radjus. which i, uken to the two-thirds power Model B produced water-surface profiles to within 0 06 J^w«r0 6an52"r„T""r '"u*"'""' dicular to the direction of flow was occupied by builZgs SUMMARY The method for adjusting roughness values n for com. binrrh:t;"'r ''"^ -ba-n^a-r^: bmcs Ihe advan agc.s of the two currently availabte ^^imcmx-ftt eliminating thc poriion of the cross sccHo^ beiuecn buildings, and (2) using the total area of Ihe cross «c..„n and estinuitinga value of nU«ai„clud..lheef^a fiu Hmg.,. This tttcihod uses a value of « b...wd on3lcd crorscTin^^^ cross section, thus eliminating the tedious task of delineating rc .fhne,, coefficr-n. .r.. can be caleiiUied and used with- I I I I HEJl oActions required for natural conditions lo emulate the il^urfacc profile computed from a very large number of MS sections to wilhin 0.06 meter for depths of flow less snB.6 meter and plus or minus 10 percent for depths of ra||^tween0.6 and 2 meters. The technique presented may partkubrly useful in studies made to predict flooding in urban areas. These studies oflen incorporate val- ^seciions obtained by photogrammetric methods or ig surveys made for purposes other than step- ir analysis. Development of Ihe technique de- hcrein should result in values of Manning's n for ineas that are both realistic and reproducible. S45 I REFERENCES CITED bailey. J. F..and Ray. II. A.. IVMi. IK-lintiionurkiaKe-diicharge relalion in •aiufal rh^MincU by sicp-hackwater analyies: 11. S. Ceol. Survey Watcr-Sitpply Paper IS69-A. 24 p. Rarrtct, II. H.. Jr., 1967. Roui;hne»characterisiics of nfltiralchannels: U. S. (ieol. Survf) Waier-Supply Paper IIM9. 21) p. BeoMMi. M. A., aod Ualrympic, Tale. 19*6. Ckncral fieid and offK* proce- dure* for indirect mca^uremcnu: U, S. Ceol. Survey T«chni«|ues Wai<r-Re*ources Inv.. book J. chap. A I. M) p. lyjWympk. Tale, and Benson. M. A.. 1966. Mtfasuremcnis of peak dis- cbaffc b> the slope-area meihi>d: U.S. Ceol. .Sorvey Tcchnivues Waur-Retoorces Inv.. book 5.chap. A2, 12 p. Shearman. J. O.. 1976. User's manual for computer profram E4.1|.compu- ter applicali«m» for slep-backwalcr and Hoodway analyses: U. S. Ceol Survey Open-File Rcpi. 76-499. 103 p. ATTACHMENT 2 EXISTING CONDITION HEC-2 FOR SAN MARCOS CREEK AND NORTH TRIBUTARY (FN: LCGCEX.HC2) * HEC-2 WATER SURFACE PROFILES " * * Version 4.6.2; May 1991 * RUN DATE 24JUL02 TIME 13:50:19 • * U.S. ARMY CORPS OF ENGINEERS * HYDROLOGIC ENGINEERING CENTER * 609 SECOND STREET, SUITE D * DAVIS, CALIFORNIA 95616-4687 * (916) 756-1104 X xxxxxxx xxxxx X X X X XXXXXXX xxxx X XX X XX X XXXXXXX xxxxx XXXXX X X X xxxxx xxxxx X X xxxxxxx 24JUL02 13:50:19 PAGE THIS RUN EXECUTED 24JUL02 13:50:19 HEC-2 WATER SURFACE PROFILES Version 4.6.2; May 1991 THIS IS AN ARCHIVAL RUN ALL DATA AND RESULTS ARE SAVED ON UNIT 96 AC THE Q OF 1900 CFS FOR THE NORTHERLY STREAM WAS FROM A STUDY PERFORMED BY AC RICK ENGINEERING FOR RANCHO CARRILLO (J-12119C) DATED 01-12-95. AC THE FEMA FOR SAN MARCOS CREEK IS Q=14700 CFS. AC THE STARTING WSEL WAS FROM A REPORT DONE BY RICK ENGINEERING COMPANY AC DATED 09-25-91 FOR THE LA COSTA EMPLOYEE PARKING LOT.(J-11347) AC **»***•**•**»*•************••**«***«****»*««*•*.«**,*,**»*,«*,,,*,,»»,,,,«», Tl LA COSTA GOLF COURSE J-13952 07-18-02 (FN: LCGCEX.HC2) T2 SAN MARCOS CREEK AND NORTHERLY TRIBUTARY STREAM lOO-YEAR EXISTING COND. T3 BASED ON FEMA Q FOR SAN MARCOS CREEK AND RANCHO CARRILLO STUDY FOR TRIB. Jl ICHECK INQ NINV METRIC HVINS FQ r • I J2 NPROF I PLOT PRFVS XSECV XSECH J3 VARIABLE CODES FOR SUMMARY PRINTOUT FN ALLDC IBW 16.27 CHNIM ITRACE 15 150 QT 1 14700 NH 5 03 125 .05 NH 662.7 ET 9 . 1 XI 10.0 94 .0 126 .5 235.9 GR 14 0 14 66 GR 14 .29 88 .6 14 .53 89.3 GR 14 .38 115 . 7 14 .35 116.2 GR 13 96 126 .5 11 . 94 129.9 GR 7 20 139 .7 6 . 11 161.5 GR 2 10 186 8 2 .09 218.2 GR 10 43 236 2 10 .47 239.7 GR 10 38 273 4 10 38 274.3 GR 11 17 310 9 11 36 323 .5 GR 11. 65 345 0 11 62 355.5 GR 12 . 11 391 9 12 30 397.6 GR 13 . 17 421 7 13 26 423.6 .0 12.7 14 .5 14.3 9.7 S . 1 5.9 10.6 10.5 11.4 11.7 12 .6 13 .36 .03 .0 80 91.3 119.6 132 . 9 164.2 225 .1 250.1 292.4 328.4 358.0 409.1 427.2 225 .1 . 0 12.65 14.53 14.11 8.40 3.29 8.19 10.65 10.54 11.57 11.91 12 . 66 13 . 72 81.3 •100.4 124 . 7 135.4 170 .1 229. 3 250.8 296 . 7 335.4 371.6 409.7 441 . 0 239.7 12.79 14.39 14.10 7.33 2 .10 10.43 10.39 10.55 11.58 11. 93 12 .67 13 . 74 427.2 86.7 114.3 125.0 136.9 182.6 235.9 272 .5 297 . 0 342 . 8 373.8 410.0 441.1 GR 14.34 463.0 14.41 469.2 14.53 477.2 14.84 488.2 14.9 490.7 24JUL02 13:50:19 PAGE GR 15.48 500 .5 15 72 504 .0 16 92 514 .4 17 . 0 514 . 8 18 .72 528.5 GR 19.23 533 .0 20 45 541 .4 21 11 546 . 6 21. 8 549 . 9 21 .57 555.9 GR 21.43 557 .4 19 92 562 .3 17 13 571 .6 16 . 3 575 .2 12 .29 590.7 GR 11.61 593 .4 11 75 607 . 1 12.0 613 .5 12.77 624 .2 12 .86 628.5 GR 12.88 629 .7 12 88 631 .3 12.8 637 .2 12 . 85 640 . 9 12 .87 642.2 GR 12.86 643 .1 12 40 643 .5 12 54 651 .8 12 . 90 662 . 7 NH 5 03 215.5 .05 259.1 .03 306.3 .05 320.7 .03 NH 772.5 ET 9 . 1 43 607 XI 20.0 96 .0 204.0 327 .3 88.5 86 .9 88.2 GR 14 . 9 .0 15 11 9 .3 15 74 10 .3 17 . 90 15 .4 21.1 19.2 GR 21.96 21 . 9 17 11 27 .5 16 14 29 .6 15.36 31 . 5 14.9 32.5 GR 14.57 35 .0 13 86 49 .2 13 73 54 . 9 13 . 76 71 .2 14 .13 89.4 GR 14.32 95 .4 15 28 110 .3 17 67 112 .7 19.1 114 .2 18 .95 117.1 GR 18.89 118 .2 19 18 121 .4 17 80 124 .3 15.3 125 .4 15 .51 126.7 GR 15.52 133 .4 15 29 135 .9 14 75 142 .3 14.8 147 . 6 13 .83 150.4 GR 12.65 153 .6 12 53 159 .1 12 27 164 .1 12 .4 167 . 8 13 .00 168.8 GR 13 . 88 170 .8 13 70 179 .4 13 62 191 .6 13 .4 204 . 0 12 .55 213.3 GR 12.40 215 .5 10 96 218 .6 7 51 226 .3 7.2 231 .3 6 .69 243.6 GR 6.35 251 .6 4 45 255 .1 2 10 259 .1 2.1 289 . 0 2 .09 306.3 GR 5.26 311 . 0 9 92 317 .9 11 02 320 .7 13 .9 327 .3 13 .34 333.6 GR 13 .14 338 . 1 12 07 353 .4 11 80 358 .1 11.6 377 .8 11 .59 378.5 GR 11.59 383 .2 11 61 402 .5 11 69 407 .1 12.1 425 .0 12 .19 440.5 GR 12.27 449 .9 12 44 471 .4 12 43 480 .9 12 . 6 493 .2 12 .67 504.4 GR 12.80 526 .2 12 86 530 .8 13 18 548 .3 13 .3 556 .0 13 .71 577.6 GR 13 .74 579 .5 14 11 599 .9 14 05 604 .8 13 .89 650 .5 14 .42 667.2 GR 14.65 680 . 1 14.1 691 .9 12 81 701 .1 12 .21 704 .8 12 .29 708.1 GR 12 . 93 716 .6 14 . 0 723 .8 14 54 727 .3 14 .55 732 .5 14 48 739.7 GR 14.45 745 .5 14 .2 750 .1 14 23 750 .8 14 .57 757 8 14 88 765.8 GR 14.82 772 .5 NH 5 .03 230 .05 279.7 .03 327.3 .05 350.4 .03 NH 833 .5 ET 9 1 120 777.2 XI 30.0 94 0 . 225 .3 348 9 106.2 105 7 109.4 GR 14 . 0 0 13 . 96 2 3 13 91 5 1 13 .91 8 3 13 58 25.5 GR 13.6 26 8 13 . 34 46 4 13 31 48 6 13 .50 69 1 13 54 80.2 GR 13 .5 88 9 13 . 45 99 6 13 10 110 0 12 .80 113 9 12 32 121.0 GR 12.6 136 1 12 . 52 141 8 12 62 161 2 12.63 162 0 12 52 182.8 GR 12.2 198 8 12 . 21 203 5 12 44 220 3 12 .56 225 3 12 19 230.0 GR 12 . 0 234 2 9. 21 240 2 8 65 241 4 8.60 242 6 7 99 254.8 GR 7.1 267 3 6 . 90 269 6 2 29 279 7 2 .10 280 2 2 10 290.3 GR 2 . 1 327 3 7 . 24 336 1 10 08 341 3 12 . 97 348 9 12 86 350.4 GR 12 .2 364 2 11. 83 374 1 11 78 383 2 11.77 394 8 11 72 419.0 GR 11.7 422 3 11. 92 443 8 12 . 21 464 3 12.32 472 0 12 48 485 .4 GR 12 .5 489 7 12 . 77 509 2 12 . 77 513 1 12.72 521 0 12 59 534.6 GR 12.6 539 6 12 . 83 556 8 12 . 90 564 4 12 .84 575 5 12 85 582.9 GR 12 . 9 599 2 12 . 87 600 4 12 . 89 602 2 13 .40 622 5 13 18 631.6 GR 13.1 643 2 13 . 20 655 0 13. 25 664 2 13 .30 675 6 13 44 692.7 GR 13.4 696 7 13 . 47 702 5 13 . 44 717 9 13.83 724 4 14 27 733.5 GR 14.6 747 0 14 . 71 750 8 16. 48 761 3 16 . 85 764 5 18 02 769.6 24JUL02 • GR 18.5 773 .9 18 .77 777.2 18 .65 779.6 18.62 782.6 17.73 788.3 GR 17 . 5 790 .2 17 .08 796.9 16 .64 805 .3 16.47 808.5 16 .66 814.1 GR 16.2 814 .3 17 . 02 829.0 17 .11 831 .0 17.14 833.5 r = - NH 5 03 254 . 6 .05 293.6 03 343.7 .05 364.2 .03 NH 919.4 r' ET 9 . 1 189 865 XI 40.0 96 .0 246.2 364 .2 115.7 116 .0 115.1 GR 15.4 . 0 17 .09 14.8 17 .16 15 .6 17.31 32.6 17 .22 41.3 GR 17.1 50 .2 17 .22 70.0 17 .29 91 .2 17.0 110.4 17 .59 118.5 GR 17 82 130 .2 17 . 15 136 .1 15 .95 139 .7 15.4 141.3 15 .41 146.8 . GR 15 44 155 . 1 15 .46 158.0 15 .59 170 . 1 15.6 172.1 15 .88 178.0 GR 15 53 185 . 8 14 .28 187.5 14 .85 188 .6 16.5 191.9 16 . 18 194 .8 GR 15 70 197 .7 15 .49 208 . 6 16 . 14 212 .2 15.0 221. 6 14 .73 225.6 GR . 13. 93 231 .8 13 .33 246.2 • 13 .21 247 .5 11.3 252 . 9 11 .00 254.6 GR 9. 98 262 .4 9 . 02 272.0 8 .07 276 .2 6.9 284.2 6 .43 285.1 GR 2 . 10 293 .6 2 . 07 319.9 2 .06 330 .7 2.0 343 . 7 9 .07 356.9 GR 12. 05 362 .1 13 .03 364.2 12 .78 368 . 9 12.4 377.5 11 .72 383 .1 GR 10 . 65 392 .5 10 . 16 411.4 10 .15 411 .6 10.0 430.2 10 .09 438.6 GR 10. 29 454 .2 10 .27 465.0 10 .46 476 . 0 10.6 493 .2 10 .74 500.8 • GR 11. 22 517 .6 11 .33 523.9 11 .70 544 .5 11.8 551.0 12 .33 574.0 L GR 12 . 39 574 .7 12 .58 598.0 12 .40 615 .5 12 .5 622.7 12 .43 633.8 GR 12 . 42 646 .8 12 .26 660 .2 12 .23 672 .5 12.5 692 .3 12 .60 696.3 r GR 12 . 73 703 . 1 13 .05 716.0 13 .20 732 .7 13 .4 739.5 13 .57 747.4 1 GR 14 . 94 776 .4 15 .40 784.2 15" 96 802 3 19.8 822.5 20 .29 325.1 GR 20. 42 841 2 19 47 848.7 19 43 851 8 19.2 860.5 19 20 363 .2 GR 18 . 78 869 8 19 07 876.8 19 44 886 0 19.1 888.3 18 42 901.4 i GR 19. 55 919 4 NH 7 . 03 275.5 .05 303 .4 .03 350 .05 365.3 .03 NH 579 .4 .051 819. 9 .03 946. 9 ET 9 1 204 385 XI 50 .0 94 0 268.4 365.3 132 . 3 143 6 141.8 GR 17 . 4 0 17 28 12.3 17 28 16 6 17.19 34 .4 17 17 46.2 GR 17 . 1 57 2 17 08 73 . 9 17 07 78 6 17.21 81.4 17 13 99.9 GR 17 . 1 100 4 17 03' 101.4 17 06 124 2 17.06 124.4 17 20 149.6 GR 17 . 0 173 3 16 72 179.5 16. 68 185. 7 15.89 189.2 15 56 190.8 . GR 15 . 1 196. 8 14 . 90 200.6 14 . 50 212 . 0 14.40 215.8 14 37 217.8 GR 14 .4 237 . 3 14 . 14 255.1 14 . 08 261. 4 14 . 96 266.5 16 03 268 .4 GR 12 .6 275 . 5 12 . 61 275.5 11. 71 283 . 0 8.91 290 . 0 7 93 292.8 GR 7 . 1 294 . 4 2 . 91 303.4 2. 10 305. 1 2.05 349.1 2 . 05 349.7 GR 2 .2 350. 0 5. 29 355 . 0 11. 50 365. 3 11.49 365.6 11. 21 379.5 GR 9 9 389. 2 9. 21 394.2 9. 07 400. 0 8 . 90 407 .1 8 . 92 417.1 GR 3 9 424 . 8 8 . 93 430. 8 9. 13 446. 1 9.23 454 .5 9. 32 470.6 GR 9 4 479 . 4 9. 44 491.6 9. 45 505. 5 9.48 514.6 9. 50 525.4 GR 9 6 536 . 0 9. 83 551.7 9. 84 553 . 5 10.35 571.3 10. 59 579.4 GR 11 0 594 . 3 11. 46 605.9 11. 90 618 . 7 11.96 631.2 12 . 29 647.2 GR 12 3 665 . 0 12 . 34 669. 6 12 . 99 701. 1 13 .29 707.4 13 . 60 733 .8 GR 13 7 747 . 8 13. 94 771.0 14 . 19 798 . 2 14 .46 811.0 14 . 52 819.9 GR 15 1 836 . 4 15. 63 843.4 16. 88 854 . 4 17.20 860.6 17. 46 870.1 GR 17 0 SS6. 8 16. 97 §87.6 16. 04 898 . 1 15.62 908 .2 16. 26 912 .5 GR 16 6 924 . 5 16. 64 928.7 16. 32 936 . 0 17.64 946.9 24JUL02 13:50:19 PAGE (. . NH 7 03 290.4 05 . 319.4 03 363 .5 05 376 .03 NH 664 .2 .051 855 03 984.7 f • • XI 60 .0 97 .0 204 .4 369 .7 172 . 0 174 .0 173 .0 ! X3 10 • GR 7 .1 . 0 6 . 95 8 .3 6 .92 11 .0 6 .87 13 .4 6 . 67 25.8 GR 6 .5 40 .3 6 .49 44 .3 6 .52 56 .3 6 .56 61 . 9 7 . 10 75.2 j GR 7 .5 84 .3 7 .58 84 .4 8 .34 88 .1 9 .63 91 .0 8 .86 92.9 { GR 10 .4 99 .4 13 .07 106 .9 12 98 111 .2 12 80 115 .9 12 .60 124.6 GR 12 . 1 137 .6 12 .25 152 .9 12 29 159 .2 12 37 163 .4 12 .52 179.9 ;f ' i GR 12 .6 187 .9 12 .67 188 .7 13 67 191 .6 16 13 198 .4 18 .84 204 .4 1 GR 18 .8 215 .9 • 18 .24 217 . 1 14 31 224 .5 12 91 232 .4 12 .95 233 .9 GR 12 .9 242 8 12 .97 250 .9 13 02 252 3 14 75 255 .2 15 66 257.1 { " GR 16 .2 265 8 16 .31 267 .4 15 23 280 2 14 89 287 .1 14 35 289.7 GR 14 .0 290 4 12 19 294 .4 8 28 302 8 3 63 315 4 2 10 319.4 I. _ GR 2 0 353 6 2 03 363 5 . 2 84 364 5 7 84 369 7 7 58 376.0 f GR 7 8 385 2 7 96 388 6 7 89 402 9 7 36 411 7 7 92 414.0 GR 8 1 424 7 8 18 439 5 8 23 444 5 3 33 455 9 8 54 465.5 i . GR 10 4 484 6 10 82 489 8 11 06 509 0 11 12 521 8 11 26 534 .5 GR 11 4 550 7 11 48 560 0 11 57 580 9 11 85 601 0 11 91 607.8 f GR 11 9 613 8 11 66 628 0 11 71 642 0 11 76 645 7 11 69 664.2 L. GR 11 7 666 7 11 74 676 5 12 24 687 2 12 39 702 2 12 70 730.7 GR 12 9 767 6 13 09 776 1 13 46 737 6 14 . 28 807 0 14 37 812.1 GR 14 5 819 1 14 63 831 4 14 77 844 6 14 . 80 847 6 14 86 855 i GR 34.86 855 34 36 934 7 NH 4 03 274.6 .1 370.0 03 632.6 .051 1341.2 XI 70. 0 87 .0 220.7 365 .1 208.2 219 .7 219.8 X3 10 GR 12 . 3 . 0 7 78 2 .3 7 .38 16 .2 7 .45 46 . 0 7 23 73 .8 GR 7.0 82 .1 7 35 111 . 7 9 .62 121 .8 12 83 129 .5 14 09 132.0 GR-13.9 142 . 0 13 44 166 .7 13 .18 178 .7 12 56 194 .7 13 23 206.6 GR 15.1 213 . 1 15 74 214 8 18 53 220 .7 18 47 228 2 13 50 233.3 GR 17.1 236 .7 15 40 241 2 13 71 246 .3 13 68 253 0 13 . 84 274 .1 GR 13 . 8 274 .3 13 83 274 6 12 96 275 .9 4 78 288 1 2 . 10 292 .6 GR 2 .1 303 6 2 10 306 8 2 09 336 1 2 09 345 0 5. 72 348.1 GR 6.9 349 8 9 43 355 7 10 33 365 1 10 83 370 0 10. 71 372 .0 GR 10.4 377 1 9 91 389 1 9 65 3 94 9 9 57 414 9 9. 42 421.7 GR 9.6 433 1 9 68 445 0 9 69 448 7 9 78 460 9 9. 31 477.5 GR 9.8 430 3 9. 84 488 2 29 84 488 2 29 84 632 6 10 . 44 632.6 GR 10.27 665 8 10.9 689 7 30.9 689 7 3C .9 861 2 12 .9 861.2 GR 13.43 879 0 13. 95 919 5 16 38 951 6 15. 92 978 0 17 .1 993 .5 GR 20.54 1007 4 21. 42 1011 1 24 29 1022 7 26. 17 1030 5 26 .1 1042.1 GR 26.24 1048 9 26. 09 1063. 0 25. 77 1073 9 25. 71 1088 . 5 25 .9 1108.7 GR 26.02 1117 1 26. 11 1132 . 9 26. 30 1150 5 26. 40 1155. 9 26 .4 1172.1 GR 26.37 1208 5 26. 36 1212 . 0 29. 28 1224 1 36. 69 1228. 2 36 .7 1235 GR 60 1235 60 1320 24JUL02 13:50:19 I, NH 4 .03 248 .6 1 339 .2 .03 837 .9 .051 1353 .6 XI 80.0 91 0 226 .5 339 2 69 .5 75 .7 74 .8 X3 10 GR 16.1 0 8 . 12 4 5 8. 12 4 .6 8 . 01 10 6 7. 85 21.7 GR 7.3 24 9 7 . 75 39 7 7. 80 43 .9 7. 97 57 1 8 . 04 70.5 GR 8.5 89 3 9. 55 100 9 10. 65 113 .4 11. 34 113 4 15. 28 127.6 GR 15.6 138 .8 15. 53 145 6 15. 43 • 157 .3 15. 49 166 9 15. 65 179.2 GR 15.4 195 .1 17. 60 217 5 19. 30 226 .5 18 . 56 241 8 13 . 46 243.3 GR 16.9 248 .6 12 . 71 256 2 9. 86 261 .7 7 . 01 267 1 2 . 10 278.0 GR 2.1 291 .0 2 . 42 292 4 6. 20 297 .1 5. 79 301 0 5. 36 303.6 GR 3.5 307 . 1 2 . 09 310 5 2 . 09 322 .1 2. 09 329 7 10. 00 339.2 GR 11.5 341 .2 11. 12 354 6 9. 08 365 .0 9 .2 370 29 .2 370 GR 29.2 400 9. 27 400 9 .3 407 .3 9. 56 412 4 9. 91 423 .2 GR 10 .12 453 . 1 10. 37 473 .9 10 .4 485 30 .4 485 30 .4 635 GR 10.4 635 10 . 8 661 .7 10 . 57 630 .1 10. 54 712 0 10. 78 741.6 GR 11.85 787 .0 12 . 1 310 .5 12. 41 837 .9 12 . 58 885 1 12 . 28 924.3 GR 12.33 960 . 0 12 .5 972 .5 15. 27 982 .3 13 . 03 995 9 18 . 39 1015.7 GR 18.62 1038 . 1 13 .6 1057 . 9 18 . 36 1031 .4 13 . 09 1107 9 17. 90 1115.9 GR 20.10 1125 .2 22 . 0 1133 .7 22 . 64 1136 .6 24 . 65 1145 9 25. 14 1143.3 GR 25.70 1161 .5 25 .8 1165 .9 26. 44 1172 . 9 27. 04 1194 0 27. 40 1196.0 GR 30.54 1216 .6 32 .4 1228 . 1 33 . 69 1244 .1 35. 53 1250 55. 58 1250 GR 55.58 1353 .6 NH 5 .03 176 .1 . 07 266 .5 .03 646 .2 .051 1062 .3 .03 NH 1203.6 XI 90.0 93 .0 176 . 1 266 .5 219 .5 204 .7 206 .7 GR 20.5 .0 20. 44 1 .8 20 . 28 9 .0 20. 17 15 9 19. 71 27.9 GR 19.4 40 .1 19. 23 44 .0 19. 36 56 .3 19. 11 67 1 18 . 64 79.5 GR 18.4 86 .8 17 . 66 102 . 6 17. 22 113 .5 16. 92 135 5 16. 93 147.6 GR 16.9 175 .7 16. 69 176 .1 12 . 09 135 .7 7 . 12 191 1 2 . 10 196.1 GR 2.1 207 . 1 2 . 11 210 .0 2 . 86 211 .3 5. 91 213 9 5. 91 214.1 GR 5.7 224 .8 5. 53 226 .3 2 . 09 232 .3 2. 09 234 2 2 09 254.7 GR 5.1 257 .7 11 . 45 266 .5 13 . 05 270 . 3 12 . 92 272 9 12 36 281.1 GR 11.3 287 31 .3 287 31 .3 325 8 . 95 325 8 . 75 332.1 GR 3.16 342 .0 3 . 26 371 .5 8 .3 376 . 1 9. 57 400 29 57 400 GR 29.57 560 10 . 25 560 10 . 30 567 .4 10 . 9 591 2 11. 81 616.5 GR 12.02 646 .2 10 . 80 681 .5 10 . 08 700 . 9 10 . 3 730 4 10. 40 755.2 GR 10.36 777 .2 10. 58 811, .3 11 . 70 822 .8 12 . 1 826 7 13 . 75 344 .2 GR 13.73 845 .1 13 . 46 856 .4 13 . 47 353 .7 13 .4 872 5 13 . 24 879.2 GR 13.06 899 .5 13 . 06 905 .5 13 . 44 924 .8 15 .6 938 8 16 . 67 943 .5 GR 18 .43 950 . 6 18. 11 969 .3 18. 07 971 .4 17 . 5 993 9 17. 94 1002.7 GR 20.12 1020 .5 21. 38 1036 .9 20 . 79 1053 .7 22 .0 1062 3 22 . 97 1070.4 GR 24 . 07 1072 .3 25. 44 1076 .0 25 . 68 1076 .4 25 .5 1080 1 26. 01 1095.4 GR 26 . 03 1095 . 9 26. 80 1101 9 28 . 80 1119 .2 29 . 0 1123 8 30. 69 1142.3 GR 31.08 1150 51. 08 1150 51. 08 1203 .6 24JUL02 13:50:19 NH 5 . 03 81.6 .07 156 . 9 . 03 450.5 .051 826.2 .03 NH 1072.2 XI 100.0 100 . 0 81.6 156.9 125.7 114 . 8 118 .1 GR 21.1 .0 20 .29 3.6 16.96 12.6 12 .39 24 .5 13 .39 32.5 GR 13.6 36.7 13 .42 45 . 9 13.19 58.6 13 .20 76 . 5 13 .03 81.6 GR 10.1 35 . 0 3 .36 93 .7 2 .25 95.4 2 .33 104 .7 2 . 90 109.4 GR 3.0 113 .3 2 .33 118.9 2.33 119.0 2 .26 138 . 6 3 .89 141.2 GR 7.3 147 .1 9 .62 151.8 11.34 156.9 11 .61 162 .3 11 .33 170.0 GR 9.8 175 29.8 175 29.8 227 7 .73 227 7 .68 230.6 GR 8.05 248 . 0 8 .1 266.4 7.55 270 37 .55 270 37 .55 325 GR 7.65 325.0 7 .69 343.0 8.48 363.1 9 .12 387 .5 10 .01 409.4 GR 10.6 423 .0 11 .23 439.8 11.56 450.5 11 .88 475 . 0 11 .56 478.0 GR 9.8 494.0 9 .37 500.9 9.88 513.4 10 .10 522 .7 10 .28 534.8 GR 10.6 547.6 12 .47 562.7 12 . 97 566.9 13 .50 577 .6 12 .2 539.9 GR 11.74 592 .7 11 .69 608.2 11.5 644.2 11 .45 652 . 0 11 .06 667.9 GR 11 . 04 674.8 10 . 97 639.4 10.9 697.8 10 .78 713 . 1 10 .81 718.6 GR 12 . 32 736.0 13 .23 752.3 13.3 758.1 13 .24 768 .4 13 .14 773.8 GR 13.07 789.9 13 .06 792.9 12.8 814.0 12 .95 826 .2 13 .04 833.9 GR 17.33 847.2 17 .68 843.5 17.5 859.9 17 .50 870 . 1 17 .57 371.0 GR 20 . 17 886.7 20 .77 900.9 20.9 905.2 21 .73 919 .7 21 .94 922.6 GR 23.72 931.5 23 .36 943 .6 22.6 949.7 25 .19 963 .5 24 .94 979.5 GR 25.62 939.7 26 .80 1002.1 23.4 1017.5 29 . 15 1023 5 29 .60 1025.7 GR 31.02 1035.6 32 .7 1043.3 36.15 1055.9 37 .07 1065 2 38 .17 1072.2 NH 5 .03 40.7 .07 122.6 .03 275.6 .051 741.8 .03 NH 964.3 XI 110.0 98.0 47 .4 120.1 117.7 113.6 114.4 GR 19.0 . 0 18 12 1.8 13.91 13.1 13 43 14 6 12 47 23.7 GR 12.4 28.3 12 03 40.7 12.06 43.7 12 06 47 4 5 97 59.3 GR 2.2 67.0 2 24 74.8 2.26 98 .5 2 26 103 1 2 26 106.6 GR 10 .4 119.8 10 54 120 . 0 10.63 120.1 10 72 122 6 11 08 131.7 GR 10.1 132.7 7 04 136.6 7 .22 147.8 7 29 152 8 7 73 162.7 GR 8.1 170.5 8 26 176. 8 8.08 184.1 8. 08 190 . 6 8 17 197.3 GR 8.5 210.6 8 . 53 213 .1 8.05 229.2 a. 01 231. 2 8 OS 237. 0 GR 3.2 256.0 8 . 41 266.4 8.81 275.6 9. 52 279. 8 9. 93 282.4 GR 10.8 283.0 11. 07 290.5 12.30 307.5 12 . 27 308 . 0 11. 12 322.0 GR 10 .2 328.2 9. 45 335.0 9.49 343.8 9. 64 350. 9 9. 81 363.3 GR 10.5 389. 1 10. 56 391.6 10.68 413.2 10. 70 415 . 8 11. 43 440.7 GR 11.4 460.1 11. 03 480 . 7 11.08 485.5 10. 54 509. 3 10. 46 533.2 GR 10.5 536.7 10 . 55 555.4 10.36 578.9 10. 86 578 . 9 10. 80 602.0 GR 11.1 624.4 11. IS 626 . 8 11.17 629.0 11. 34 643 . 9 11. 76 665.6 GR 12 . 0 673.9 12. 45 685.5 12.47 695.1 13 . 40 713 . 6 13. 78 720.6 GR 14 .2 726.2 14 . 67 736.4 14 . 79 741.8 15. 04 748 . 6 15. 22 757.1 GR 15.7 768.2 15. 79 770.4 16.36 780.4 16. 63 786. 1 17. 36 801.7 GR 17.9 812 . 9 13 . SO 820 . 8 19.66 344 . 9 20 . 29 854 . 3 20. 40 857.9 GR 21.7 830.1 21. 69 880.6 22.35 399.7 23 . 94 917 . 6 24 . 45 927.5 GR 25.6 945.6 26. 76 961.3 27 . 06 964.3 13:50:19 PAGE j NH 5 1 NH 943 .5 XI 120 . 0 r I GR 28 .9 i GR 13 . 6 GR 10 .4 I GR 2 .3 I GR 10 .8 i GR 10 . 3 GR 10 .2 f GR 11 .4 I . GR 10 6 GR 10 6 GR 10 1 GR 11 1 I GR 12 0 GR 13 6 [' GR 13 6 I. GR 17 3 GR 18 4 GR 19 4 GR 24 2 GR 26. 9 100.0 .0 51.8 66.4 106.5 141.1 174.5 237.4 290.1 367.4 424 .5 482.1 549.8 616.5 670.8 720.3 753.7 794.0 834.0 380.7 912.9 53.6 60.3 24.59 13.02 7.93 2.27 10.33 9.81 10.33 11.44 10.51 10.50 10.06 11.41 12.31 13.70 15.10 18.03 18.50 20.06 24.34 26.36 131.0 9.2 53.6 77.4 118 .2 143.9 135 .1 239.8 294 .1 373.5 441. 0 491.2 560.9 626.9 677 . 5 735.3 766.3 793.6 848.8 882.1 .929.0 182.6 24 .48 12.39 5.50 7.10 10.36 9.35 10.59 11.46 10.39 10.49 10.07 11.66 12.89 13.37 15.45 13.05 18.60 20.15 24.55 26.37 171.4 9.5 56.2 86.3 125.6 154.3 195.4 246.1 318 .5 390.9 443 .3 491.8 580.3 633 .2 693 .6 738 .4 767.2 805.8 852 .1 884 .4 930.4 130 .3 14 . 76 11.77 3 .51 9.54 10.32 9.68 11.22 11.21 10.63 10.38 10.80 11.75 13.26 13 .16 16.19 18.05 18.88 20 . 65 26.33 26.44 .051 23.9 60.3 92 . 8 128 . 9 156.3 215.0 266.0 333.4 401. 9 464.6 519.6 602.7 647.5 710.1 742 . 8 768.9 817.3 357.0 897.2 940 . 8 482 . 1 13.85 10.58 2 .27 10.78 10.37 9.75 11.42 11.08 10.75 10.37 10.80 11.32 13 .47 13 .51 17.09 18.16 19.01 22.60 26.46 26.64 .03 39.3 65.6 97.1 131.0 169.1 217.6 289.2 345.8 416.6 465.6 540.5 603 .4 661.2 718.6 749.7 783.9 822 .7 370.1 899.3 943 .5 NH 5 03 81 . 05 158.5 .03 232.7 05 355.6 .03 NH 990 ( XI 130.0 100 .0 81 153 .5 134.9 127.1 129.6 GR. 32 0 30 5 28 9 26 13 24 16 GR 22 18 20 21 18 24 16 23 14 59 1 GR 14 71 14 81 12 89 10 92 8 96 [_, GR 6.7 100 6 39 101.3 2.32 119.2 2 28 141 . 0 2 .27 147.1 GR 3.0 149 . 1 5 23 155.3 6.87 156.3 11 36 158 .5 11.33 165.3 (J. GR 11.3 168 .4 11 39 171.7 11.80 185.2 11 14 194 .9 10.54 200.4 1 1 GR 10 . 5 20S . 8 10 43 215.5 9.86 225.2 9 49 232 .7 9.36 238.5 GR 9.3 243 . 8 9. 17 257.4 9.42 260.9 10 01 271 . 6 10.50 285.7 r GR 10.6 289 .1 10. 48 298 . 9 10.26 311.2 9 99 315 .4 9.58 327.4 GR 9.6 334 .6 9. 55 346.6 9.52 355.6 9 60 361 . 6 9.74 372.3 — GR 9.9 386 .7 9. 96 406.0 10.20 426. 1 10.4 436 .7 10.75 447.1 GR 10.39 452 . 8 11. 37 463 .7 11.50 473 . 8 • 11. 34 499 . 0 11.40 512.4 GR 11.25 529 .3 11. 64 551.8 11.0 562 .1 10. 93 589 . 1 11.12 609.2 GR 11.14 612 5 11 .3 627.3 11.45 642 . 3 11. 54 648 .4 11.79 661.5 GR 12.05 670 6 11 .8 678 . 6 11.56 689. 6 11. 37 699 9 11.90 . 713.9 (' GR 12.38 717 7 14 .4 732.5 14 . 98 737.6 15. 34 750 5 16.15 757.6 \ GR 16.38 769 2 16 . 1 775 . 9 16 .37 794.4 16. 81 817 4 17 . 07 826.4 GR 17.5 841 6 17 . 77 860.1 18.77 879.8 18. 97 386 1 20.8 909.8 GR 21.13 913 9 22 . 13 925.4 25.35 937.8 25. 99 942 1 28.7 956.2 GR 29.37 963 9 29 . 16 967.7 27.95 983 . 5 28 .0 988 9 27.99 990.0 PAGE NH 3 03 67 05 153.5 03 1090 .4 XI 140 .0 99 .0 94 .8 649 . 9 280.0 250 274 . 4 GR 20 0 18 44 15 65 15 .5 67 15 44 67.7 GR 15. 32 69 .5 14 . 93 77 .1 11 10 94 .8 9 . 0 105 .9 7 85 110.0 GR 7 . 43 117 .9 7. 10 125 .5 6 57 137 .4 6 . 1 147 . 8 9 13 153:5 GR 9. 77 155 . 0 9. 71 160 .6 9 98 163 .3 10 .5 170 .4 10 60 174.3 GR 10. 84 179 .3 11 . 34 135 .7 11 63 192 .4 12 .4 205 .0 12 57 209.2 GR 12 . 50 212 .3 12. 45 216 .9 12 34 213 .6 11 .9 226 .3 11 01 242.3 GR 10. 69 246 .4 10. 61 250 .9 11 01 270 . 0 11 .3 236 .6 11 44 293 .4 GR 11. 70 317 . 6 11. 89 333 .5 11 92 346 .2 11 .9 355 .6 12 01 370.1 GR 12. 31 391 .0 12. 44 401 .4 12 49 420 .7 12 .3 443 .0 12 28 447 .1 GR 11. 86 471 . 1 11. 55 477 .4 10 74 495 . 1 10 .5 502 .0 9 87 515.5 GR 9. 55 534 .8 9. 50 536 .6 3 38 553 .4 8 .5 561 . 0 3 97 570.2 GR 9. 35 577 .4 9. 80 596 .8 9 76 602 . 0 9 .8 620 .7 9 83 625.0 GR 9. 63 649 . 9 9. 85 669 .2 9 98 680 .4 10 .1 695 .8 10 23 716.2 GR 10. 23 733 .3 10. 24 745 .4 10 43 761 . 9 10 .6 732 .1 10 64 303 .1 GR 10 . 99 826 . 1 11. 40 840 .8 12 48 857 .6 12 .9 363 .4 13 89 877.8 GR 13 . 61 893 .7 14 . 22 896 .7 15 74 899 . 1 15 .3 901 . 9 16 22 907.1 GR 16 . 56 911 .3 16. 78 916 .2 16 87 926 . 7 17 .6 942 .7 17 79 948 .7 GR 17 . 96 956 .9 18 . 40 973 .4 18 44 1004 . 7 19 .5 1013 .7 20 03 1017.3 GR 20. 81 1035 .5 21. 70 1041 .5 22 34 1047 . 9 23 . 1 1058 . 1 24 43 1065.8 GR 24 . 92 1063 . 0 25 . 61 1071 .1 27 85 1082 .2 29 .0 1090 .4 NH 3 .03 66 .3 05 30.2 03 1133 .3 XI 150 . 0 100 .0 66 .3 763 .3 133.5 90 145 . 9 GR 20 0 18 13 16 17 14 28 12 32 GR 10 34 8 .6 35 8 77 37 .5 9. 92 41 .3 10 49 42.1 GR 11. 33 45 .0 12 .9 47 . 0 13 23 49 .2 13 . 61 51 4 13 99 66.3 GR 13. 63 71 .2 13 .5 71 .7 11 90 75 .3 10 . 24 77 4 8 40 30.2 GR 6. 73 86 .2 6 .7 89 .2 6 69 102 .8 6. 95 109 1 7 82 111.4 GR 10. 74 119 . 6 11 .8 123 .1 12 07 125 . 7 12 . 40 136 5 12 23 138.6 GR 12. 26 148 .8 12 .8 158 .4 13 77 165 .4 13. 36 168 9 12 11 175.6 GR 10. 45 186 .7 10 .4 137 .7 10 33 202 .3 10. S3 209 4 11 05 228.1 GR 11. 19 234 .9 11 . 7 259 .8 12 00 271 .2 12 . 47 236 0 13 24 298 . 6 GR 13. 45 305 5 14 .0 322 .2 13 99 335 . 1 13 . 71 344 1 13 . 70 353 .2 GR 13 . 8 389 5 15 . 02 416 4 13 79 429 .3 14. 38 453 0 15 12 478.3 GR 15 .4 490 7 13 . 97 514 3 13 35 524 .1 12 . 59 537 0 12. 58 538.4 GR 11 . 6 561 2 11. 21 571 2 10 50 590 6 10.29 599 3 9. 94 608.3 GR 9 . 6 635 8 9. 66 637 5 9 24 668 0 8 .43 675 7 8 . 98 685.1 GR 9 .4 715 1 9. 55 733 7 9 91 763 3 10 . Dl 731 3 10. 14 320.4 GR 10 . 6 845 5 11. 49 878 3 12 74 899 0 13 .24 909 0 13 . 73 919.8 GR 15 .0 930 5 15. 24 933 3 16. 31 947 7 16. 91 957 0 17. 63 966.3 GR 17 . 9 972 6 18. 34 1001 2 18. 71 1020 9 19.15 1041 5 20 . 0 1059.9 GR 20. 14 1065 4 21. 36 1074 0 22 . 14 1079 7 22 5 1089 0 24. 16 1093.1 GR 24 . 61 1100 6 24 . 94 1102 8 27 . 46 1116 1 28 4 1122 8 29. 78 1133.3 24JUL02 13:50:19 PAGE NC 03 .03 03 XI 160 . 0 99 .0 126.2 938 .2 150.9 95 147.4 GR 22 0 22 7 20 19 18 25 15 32 GR 14 41 12 48 10 49 . 5 9.6 50 10 37 56 .6 GR 11. 89 58 .4 13 45 64 . 1 13.4 64 . 1 12 .71 75 .0 12 54 81 .6 GR 11. 85 98 .2 11 31 102 .4 11.6 122 . 9 11 .23 126 .2 9 79 143 .5 GR 9. 19 146 .6 8 81 149 . 1 7.5 149 . 7 6 .32 150 .4 5 27 174 .2 GR 5. 27 175 .7 5 50 177 .5 8.9 194 . 1 9 .34 202 .7 10 11 225 .5 GR 9. 68 272 .4 9 66 307 . 7 9.9 321 .1 10 .59 333 .3 10 00 355 .9 GR 10. 39 401 .0 10 65 422 . 3 11.2 447 . 8 11 .57 485 .9 12 07 515 . 1 GR 12. 21 524 .2 12 84 559 . 8 13.4 598 .3 13 .40 643 .3 12 63 631 .0 GR 12 .3 697 .3 • 11 57 720 .2 11 .20 740 .3 10 .74 753 .8 10 52 785 .4 GR 9. 31 799 .6 9 72 334 . 9 10 .37 848 . 5 10 . 6 855 .6 10 02 861 .0 GR 9. 50 863 .7 8 79 855 . 9 8.3 371 . 3 9 .45 874 .6 9 97 876 .8 GR 10. 21 877 . 9 10 97 889 .3 10 . 9 394 . 7 10 .55 899 .7 10 22 909 .4 GR 10 . 00 933 .2 10 46 978 .5 10 . 9 997 . 7 11 .50 1014 .2 11 77 1020 .3 GR 12 . 06 1027 .8 12 .5 1042 .2 12 .74 1050 .0 13 .40 1055 .9 13 43 1094 .5 GR 13. 97 1106 .0 14.3 1117 .5 15 .42 1123 . 0 15 .51 1129 .5 15 97 1134 .4 GR 17 .1 1136 .9 17 57 1148 .3 17 . 91 1159 .0 18 .01 1154 .9 18 91 1177 .2 GR 19 .5 1137 .7 19 67 1139 .3 20 . 07 1199 .3 20 73 1204 . 3 21 52 1211 .6 GR 24 . 30 1228 .5 25 83 1237 0 26 .66 1244 .3 23 31 1253 .7 29.3 1260 .1 GR 30. 01 1264 .5 30 89 1271 7 31 .36 1278 .9 31 77 1286 .9 XI 170 .0 100 .0 38C .5 1308 2 250.3 215 203 .0 GR 27 .1 .0 25 72 3 5 24 .33 7 .8 21 93 11 . 9 19 75 18 3 GR 17 .5 31 .3 17 02 33 9 15 .71 35 .7 14 08 38 .2 14 18 39 2 GR 15 .3 45 .0 15 11 45 8 16 .34 46 .8 17 54 53 .5 17 16 106 1 GR 18 .5 180 .7 19 50 212 5 19 .21 215 .9 16 68 235 .0 16 60 235 8 GR 16 .2 239 .2 15 21 • 252 8 14 .41 255 1 13 08 283 . 0 11 87 297 4 GR 10 . 9 315 .6 10. 21 332 4 9 .56 364 5 9 28 359 .6 3 51 380 5 GR 8 .1 335 .9 5. 22 387 5 6 .26 420 7 7 15 427 . 9 8 11 433 2 GR 8 .4 435 5 9. 07 441 9 9 .41 452 0 9 93 466 . 0 10 81 483 4 GR 11 .0 488 4 11. 85 522 2 12 . 10 549 1 12 87 585 .8 13 25 592 5 GR 13 .7 608 9 14 . 55 624 9 15 .34 634 2 16 36 642 7 16. 45 644 4 GR 16 .7 659 4 15 . 27 685 0 15 53 698 6 16 93 703 5 16. 81 705 0 GR 15 .9 712 3 14 . 95 754 2 14 94 317 9 14 42 940 0 15 . 02 1028 9 GR 14 .4 1059 8 13 . 05 1074 7 12 76 1077 9 11 29 1039 5 10. 72 1094 3 GR 9 . 9 1138 5 9. 73 1185 3 10 20 1224 2 8 44 1223 9 8 . 43 1236 3 GR 3 .5 1251 8 9. 33 1253 9 10 46 1300 2 10 89 1308 2 11. 59 1324 1 GR 12 .2 1339 1 12 . 61 1349 7 13 74 1430 6 14 31 1488 0 15 . 15 1494 9 GR 15 .4 1502 9 17 . 19 1524 2 17 40 1525 3 17 75 1528 4 13 . 60 1532 2 GR 20 .4 1540 7 21. 06 1543 9 21 41 1549 7 22 07 1555 7 22. 14 1557 2 GR 23 .4 1567 8 23 . 64 1568 9 24 03 1571 5 25 12 1577 4 26. 55 1583 3 GR 28 .7 1592 8 29. 64 1598 1 30 00 1509 9 31 52 1617 3 31. 77 1518 9 NH 4 .03 392 .2 .06 547.1 .045 592 .1 . 03 1756 .3 XI 130 .0 99 0 529 .3 1516 2 145 100 145 GR 33 .2 0 36. 11 18 6 32 28 25 7 23 . 75 31 6 25 . 56 37 4 GR 23 . 4 45 21. 97 49 0 21 53 49 1 20. 62 50 1 13 .9 51 6 GR 19. 26 57 3 20 . 32 60 3 22 08 64 5 23 . 24 57 8 25 .2 72. 7 GR 26 . 11 90 5 26. 35 94 2 25 10 119 3 23 . 72 121 0 23 .3 123 7 24JUL02 GR 23 06 129 .7 20 24 138 .9 17 .70 147 .2 17 .50 143 .3 16.9 157.5 GR 16 44 160 .8 15 98 179 .7 15 .76 192 .2 15 . 12 213 .3 14.3 225.5 GR 14 . 38 249 .1 14 06 294 .5 13 .99 377 .7 13 .06 392 .2 13.8 485.3 GR 12 . 81 529 .3 10 32 540 .2 8 .95 547 . 1 5 .31 550 . 8 5.3 564.1 GR 6 . 09 592 .1 6 09 593 .6 3 .47 597 . 1 , 8 .58 597 .3 3,9 599.8 GR 9. 63 606 .5 10 11 616 .4 10 .53 633 .6 11 .16 651 .5 11.6 670.8 GR 11. 68 695 .5 12 04 724 .3 12 .55 764 .6 12 .85 795 .1 13.2 818 . 0 GR 13. 51 339 .2 15 17 882 .5 15 .50 888 .2 15 .87 895 .4 16.5 • 907.7 GR 17. 07 915 .3 16 82 937 .4 16 .03 950 .4 15 .74 968 .3 15.3 993 .4 GR 15. 18 1013 .8 15 44 1022 .8 14 .99 1073 8 14 . 19 1091 .7 13.7 1117.9 GR 13 . 44 1124 .8 12. 37 1150 .0 12 .57 1159 4 12 .18 1173 1 11.7 1197.3 GR 11. 41 1225 .1 11. 04 1255 7 10 .71 1302 4 11 .30 1335 4 11.3 1376.9 GR 10. 68 1435 .3 11. 20 1452 1 9 .33 1460 5 8 .48 1463 1 9.1 1466.8 GR 10. 56 1468 .9 10. 33 1486 7 11 . 18 1500 9 11 .93 1508 3 12 .7 1515.2 GR 14 . 00 1526 .2 15. 39 1535 1 15 .71 1601 3 15 . 90 1732 1 16.8 1735.3 GR 17 . 17 1739 .0 18. 53 1746 3 19 . 80 1751 0 21 .00 1756 3 NH 4 .03 449.9 .06 523 .045 676 . 03 1715.4 XI 190 .0 100 0 612 .7 576 130 130 130 GR 31 . 3 0 30 . 25 11 9 29 .86 15 1 23 50 21 9 28.2 24.1 GR 26. 17 30 4 25. 31 31 9 25.3 32 1 22 77 33 6 22 .34 34.5 GR 23. 24 39 4 25. 02 42 8 25 17 43 8 26 54 52 9 27 . 61 59.3 GR 27. 67 72 3 27 . 0 79 4 26 55 82 2 26 27 89 6 25 .80 103.0 GR 25. 37 112 7 24 . 0 12 0 8 23 89 121 6 23 22 124 8 21 .35 133.9 GR 20. 77 142 2 20 .7 142 9 18 19 160 0 17 65 302 9 18 .02 345 .4 GR 17. 36 352 2 15 .9 355 0 17 05 369 4 18 49 372 8 18 .53 378.9 GR 18. 29 332 7 15 .1 401 5 12 97 414 7 12 83 421 9 12 .14 449.9 GR 12. 64 474 0 13 .2 498 0 13 47 506 6 13 14 565 7 13 .45 537.3 GR 13 . 72 597 6 14 . 1 612 7 12 523 10 628 8 633 GR 6. 72 636 5 .4 670 12 676 14 00 697 0 13 .58 702.6 GR 13 .4 70S 1 12 . 95 714 6 13 01 727 0 12 38 743 0 12 .20 751.0 GR 11 .8 773 1 11. 86 796 1 12 63 834. 1 12 96 917. 4 13 .77 933 .1 GR 14 . 0 947 1 14 . 68 950 5 15 01 980. 7 14 36 1023 . 4 14 . 14 1052.5 GR 14 .4 1113. 1 15 . 23 1118. 9 15 83 1126 . 4 14. 90 1163 . 2 14 .56 1193.2 GR 15 .3 1257. 0 15. 30 1294 . 9 15 70 1368 . 7 15. 34 1397. 6 14 49 1423.3 GR 13 . 9 1450. 4 13 . 77 1485. 4 14 53 1505 . 6 14 . 69 1508 . 1 14 86 1512.3 GR 15 . 6 1532. 2 15. 27 1577. 4 16 36 1590. 3 16. 93 1598 . 3 17 10 1602.2 GR 17 . 7 1619. 5 17 . 99 1623 . 2 13 . 57 1638 . 1 19. 10 1639. 9 23 30 1558.2 GR 24 . 0 1662 . 0 24 . 28 1666. 5 25. 17 1680 . 2 25. 56 1701. 3 25 73 1715.4 .03 XI GR GR GR GR GR GR GR GR GR 200.0 33.3 29.8 28.4 24.5 21.4 19.8 16.3 13 . 6 13.7 100 . 0 . 0 75 . 0 183.3 231.7 274.3 237.9 325.6 394.0 721.4 721.4 31.62 30 .24 23 .20 22.90 21. 05 19.13 15.29 12.97 11.87 790.0 3 . 8 105.0 186.1 251.0 278 .5 291.3 340.3 401.1 732.7 150 30.67 30.33 26.12 22.32 20.45 18 . 90 14.54 12 .19 11.41 152 7.2 109.1 205.4 257.3 233.9 294 . 5 365.1 644.3 734.5 160 29.24 31.02 25.83 21.92 20.31 18 .80 14.06 13 .58 10 .25 14.3 137 .1 207.3 264.7 234.7 296.0 332 .6 557.2 742 .3 29.12 29.41 25.35 21.55 20 . 09 17.50 13 . 83 14 .22 10.25 49.4 175.7 213.1 269. 7 285.8 311.1 390.3 576.7 742.3 24JUL02 13:50:19 11 GR 9.3 743 .2 7 .64 743 . 9 7 .24 744.3 6 .79 780.9 9.49 731.3 GR 10.0 782 . 0 10 .79 733 .4 11 . 04 790.0 11 .24 799.8 11.75 812.9 i GR 12.1 823.6 12 .53 899.2 13 .15 933 .5 13 .07 995.2 12.84 1001.9 GR 12.4 1002.2 11 .73 1017.1 12 . 01 1107.6 13 .31 1112.6 13.60 1118.7 f ' GR 13.7 1120.5 14 .44 1141.4 15 .36 1158.3 16 .36 1176.3 16.73 1205.0 i GR 15.6 1209.0 14 .78 1211.5 14 .41 1231.4 15 .45 1278.4 16.01 1343.8 GR 16.2 1365.4 16 .51 1424 .1 17 .29 1426.1 17 .76 1427 . 8 16.91 1440.1 / "" ' GR 16.3 1454.9 15 .95 1459.2 15 .84 1467.6 15 .37 1520.2 14.95 1562.3 1 GR 14 .1 1572.3 13 .90 1587.5 14 .87 1622.7 15 .20 1636.0 16.27 1646.5 GR • 1.9.0 1655.2 20 .40 1574 . 9 22 .72 1696.1 23 . 01 1699.5 23 . 51 1707.1 \ GR 24.8 1727.5 25 .44 1737.9 25 .55 1748.3 26 .24 1790.1 26.12 1791.1 j v.. XI 210.0 95.0 717.1 874.0 168 .1 193.6 176.5 f GR 33 .7 .0 30 .25 8.5 29 .69 10.0 30 .22 21.3 31.39 30.3 1 GR 30.9 59.5 31 .90 106.9 32 . 59 119.6 32 . 73 120 . 8 33.22 125.2 GR 33 .6 128 .2 33 .83 129.8 34 .45 134.2 34 .74 149.0 34.67 150.7 V " GR 33 .1 161. 0 29 .95 175.9 29 .61 • 180.7 29 .25 185.3 28.47 192.8 GR 25.7 215.2 24 .75 220.5 23 .55 235.1 23 .27 233 . 0 22.61 247. 9 GR 22 .1 255.5 21 .57 279.8 20 .63 290.8 20 . 19 295 . 8 18 . 50 313.5 GR 17.8 322.0 17 .50 327.5 16 .04 355.1 15 .20 375.6 14.42 393 . 5 GR 14 .2 398.1 13 .35 403 . 8 13 .40 409.1 12 . 74 416.7 12 .17 423 .4 GR 12 .1 547.3 12 .55 632.8 13 .51 639.8 13 .53 643 . 9 15.40 575.2 GR 15.6 679.9 15 .98 685.9 15 63 695 .5 16 .68 707.5 16.73 717.1 GR 15.7 725.5 15 .32 723 . 9. 14 06 736.0 13 50 733.6 10.85 753.7 i i GR 9.2 751.1 8 12 769.0 7 63 773 .2 7 28 795.8 9.09 796.9 L ..... GR 10.9 793.1 11 59 303 .9 12 51 803 .3 14 10 824 . 9 14 .55 330.1 GR 15.0 839.2 15 90 850.0 16 85 874.0 17 23 899.9 15.06 913.5 ! \ GR 15.4 994.1 IS 16 1009.5 14 48 1029.5 14 03 1047.8 13 .53 1091.1 \ GR .13 .1 1100.9 12 46 1102.6 11 81 1191.7 13 50 1236.5 13 .76 1253.2 GR 14.3 1320.1 15 22 1351.0 15 80 1371.3 15 91 1384.4 16.50 1433.8 i GR 16 . 7 1578.3 17 33 1600.3 13 01 1605.3 20 36 1621.5 21.89 1632.5 1 GR 22.7 1639.1 22 94 1640.7 23 14 1646.6 24 00 1661.9 24.39 1658.9 I GR 24.5 1673.0 i XI 220.0 95.0 750.3 838 . 9 17C . 0 190.3 13C .7 GR 45.8 .0 33. 19 9.5 37. 14 16.1 36. 79 17.1 35.65 19.1 t 1 GR 35.3 34.0 35. 01 37.2 34 . 71 40.3 34. 48 43.1 34 .12 47.0 L, GR 33.4 94.9 34 . 79 135.8 35. 55 147.5 36 . 06 154.7 36.19 156.4 GR 36.3 167.8 36. 68 173 . 0 34. 25 187.6 31. 55 200.4 31.45 202.3 ( GR 31.0 211.2 29. 90 219.2 28. 57 225.5 26. 07 234.6 25.79 236.2 GR 23.9 241.4 20. 97 257.7 19. 46 264.6 18 . 99 267.4 19.23 267.7 GR 18.3 282.7 18. 21 290.5 17. 60 303.5 17. 31 308 . 5 16.91 320.1 , • • GR 16.4 336.7 16 . 26 339.6 15. 75 363.9 15 . 52 380.4 15.33 408.1 1 GR 14.8 416.0 14 . 65 417.5 14 . 41 419.5 13. 89 422.8 12.11 434 .4 1 GR 12.1 671.1 12 . 77 578.6 14 . 49 537.0 14 . 95 693 . 1 15.22 597.3 GR 15.3 699.3 16. 70 713 .4 16. 14 737.8 15. 88 733.7 14.70 742.3 [ GR 14 . 8 745 .1 13 . 48 750.3 9. 94 753.7 9. 35 755.6 3.45 770.2 1 I GR 8 .1 794 .2 8 . 05 798.6 9. 50 304.8 13 . 40 819.2 13.65 820.2 GR 15.9 838 . 9 15 . 71 851.0 15. 67 852 .2 14. 77 362.1 14 . 98 925.6 i GR 14.4 982 .1 13 . 61 1004.8 14 . 70 1035.7 14 . 09 1070.4 13 . 65 1030.4 ( GR 13.4 1091.9 13 . 24 1092.6 12 . 20 1094 . 8 12 . 38 1148.0 11.96 • 1209.3 GR 13 .2 1215.8 13 . 87 1233.3 14 . 36 1247.1 14 . 27 1258.7 15.43 1277.5 24JUL02 13 :50:19 PAGE 12 GR 16 1 1296 2 16 16 1352 .1 16 93 1393 .0 17 .44 1416 .0 17 .45 1543 .2 GR 18 1 1560 3 18 36 1552 .3 19 40 1570 . 1 22 .05 1591 .3 22 .32 1593 .8 XI 230 0 99 0 721.0 319 3 160.3 167 3 163 .7 GR 49 0 0 47 93 3 0 47 30 5 1 45 04 8 1 40 62 13 .2 GR 41 1 13 3 38 58 35 5 38 57 36 6 38 52 36 9 35 09 49 .4 GR 35 4 101 4 37 16 149 2 38 15 162 9 37 11 186 0 34 98 194 .8 GR 34 9 196 5 34 24 204 8 32 11 210 9 32 01 211 1 31 07 223 2 GR 25 9 242 1 24 91 245 2 24 53 246 8 24 64 247 6 21 43 264 9 GR 20 5 269 7 19 85 274 4 19 35 273 5 19 07 230 5 18 26 302 2 GR 13 1 307 5 17 12 325 3 16 55 354 9 16 22 371 0 15 31 392 8 GR 14 9 408 9 14 57 427 0 13 99 430 9 13 43 434 5 13 22 435 9 GR 12 1 443 1 12 12 541 4 12 12 610 9 12 65 522 9 14 34 634 1 GR 14 7 636 3 15 33 650 7 15 85 654 7 16 96 568 3 17 13 673 6 GR 16 0 707 8 15 24 712 1 13 89 719 1 13 63 721 0 13 23 722 5 GR 12 5 724 9 10 07 734 2 8 35 739 6 8 20 755 9 8 19 767 5 GR 8 2 763 9 8 61 770 4 11 36 780 2 14 02 799 1 15 04 805 6 GR 15 2 803 8 15 75 819 3 16 19 827 5 15 53 852 5 15 16 864 7 GR 15 5 874 0 14 84 877 9 14 96 895 9 14 77 913 9 14 52 924 6 GR 14 5 946 1 15 62 965 3 15 94 971 2 16 12 998 0 16 96 1025 4 GR 17 0 1030 6 14 92 1057 7 14 89 1058 7 15 80 1088 5 15 54 1118 7 GR 14 9 1152 5 14 30 1233 1 15 75 1308 4 15 03 1311 1 16 90 1329 0 GR 17 5 1347 0 17 44 1449 3 13 58 1451 6 13 52 1520 4 20 18 1536 3 GR 21 4 1545 6 22 15 1543 3 22 59 1549 7 22 71 1555 4 XI 240 0 97 0 670.4 784 1 177.9 195 1 135.8 GR 48 6 0 47 20 2 2 45 59 4 6 44 85 6 1 42 43 10 4 GR 42 2 19 0 41 43 21 5 41 06 23 1 40 59 25 1 39 54 28 7 GR 38 9 49 5 38 57 59 3 37 82 130 9 37 73 182 7 36 55 185 8 GR 35 8 137 6 34 50 192 5 33 04 199 0 30 54 207 3 30 22 210 1 GR 29 6 220 5 25 10 244 1 24 56 246 1 24 39 246 9 22 63 254 5 GR 21 4 266 8 20. 43 277 2 19 77 279 5 19 66 282 0 19 01 301 3 GR 18 6 309 1 17. 30 321 6 17 59 327 4 17 33 335 7 16 90 347 1 GR 16 1 370 8 15. 97 376 7 15 74 392 5 15 17 421 9 14 86 434 6 GR 15 9 513 7 16. 19 522 2 17 70 545 3 17 58 556 0 16 72 585 4 GR 16 4 589 5 15. 59 606 8 15 11 519 8 14 52 633 3 14 13 658 6 GR 14 0 670 4 13 . 31 678 9 12 53 679 0 8 82 680 6 8 83 689 5 GR 8 9 740 5 9. 30 741 7 10 47 743 5 12 04 753 9 12 80 750 2 GR 12 9 761 5 13 . 67 771 9 14 60 784 1 14 61 832 3 14'. 95 945 3 GR 15 5 1003 6 16. 01 1011 9 15 63 1028 4 15. 80 1068 5 17 21 1099 9 GR 17 4 1127 1 18 . 00 1141 5 18 33 1152 2 17. 51 1221 8 16. 58 1245 1 GR 16 3 1253 1 15 . 69 1264 3 15 21 1285 5 15. 73 1347 2 17. 16 1371 2 GR 17 3 1394 9 16. 19 1418 7 15. 16 1419 9 15. 21 1421 5 18 . 18 1442. 3 GR 13 3 1444 4 13. 36 1464 2 19 38 1467 9 19. 97 1470. 9 20 . 86 1471 6 GR 21 0 1477 5 21. 52 1477 8 22 . 14 1481. 9 22 . 41 1484 . 0 22 . 89 1484 . 3 GR 23 . 5 1487 9 24 . 47 1490. 2 24JUL02 XI 250 . 0 93 .0 669.0 753 .7 119.2 115 .5 111.9 GR 43 . 1 . 0 39 76 6.9 33 . 90 113 .3 39 .79 126 .1 40.95 137.4 GR 41 .0 143 .8 40 34 • 155 .1 39 .71 162 .4 39 .32 165 . 1 36.61 173 .6 GR 31 .3 189 .5 29 69 197 . 3 27 .56 203 .9 27 .63 208 .9 27.57 212.8 GR 26 .3 216 .5 23 93 224.5 23 .20 226 .6 22 .67 229 .9 21.97 237.3 GR 20 .6 251 .4 19 30 266.5 13 .94 271 . 0 18 .15 281 .4 17.57 297.9 17 .2 321 .9 16 66 329.4 16 .23 393 . 7 16 ,45 503 .8 18 .28 532.6 GR 18 .7 544 .3 19 11 558.5 17 .18 578 .8 15 .26 587 . 1 15.09 602.9 GR 14 .8 618 .4 14 65 625.6 14 43 633 .7 13 .98 652 . 9 13 .93 655.3 GR 13 .7 661 .4 12 99 667.0 12 75 659 .0 11 .76 575 .2 11.78 677.0 GR 11 . 1 577 .3 3 82 678.2 . 9 04 693 .7 9 .47 718 . 0 11.00 721.5 GR 11 .2 722 .3 11 57 725 .2 12 19 731 .6 12 74 734 .6 14.03 743.8 GR 14 .5 746 .5 14 94 753.7 14 56 771 . 7 14 53 775 .8 14.58 778 .1 GR 15 .4 802 .2 15 70 831.6 15 74 833 .3 16 24 851 .9 15.55 869.0 GR 15 .6 376 .2 15 51 835.4 15 66 897 .5 16 00 911 . 7 16 .44 913.2 GR 16 .5 932 . 7 16 16 946.8 15 79 956 . 0 15 42 998 .5 15.59 1064.5 GR 13 .2 1071 .0 21 09 1087.7 22 17 1095 .5 21 82 1184 .2 22 .52 1210.7 GR 20 .6 1221 .7 19 51 1229.6 19 09 1233 .7 18 48 1238 .2 16.72 1253.2 GR 15 .2 1276 .8 17 48 1300.6 18 92 1312 .5 20 72 1319 6 21.04 1321.4 GR 23 5 1338 .1 23 97 1363.0 24 02 1358 7 XI 250 0 88 0 670.9 734.3 93 .2 97 9 94.6 GR 50 .3 0 49 77 1.0 47 15 7 6 46 55 9 1 42.97 15.1 GR 39 .9 19 9 40 01 59.0 40 69 79 8 41 26 109 3 41.43 117.5 GR 41 .9 127 9 42 12 130.4 43 41 143 4 43 79 152 2 43 .47 154.8 GR 41 .3 167 8 41 58 159.5 41 12 177 0 40 10 179 5 37.20 136.5 GR 33 8 197 0 30 43 208.5 26 44 223 2 25 99 226 1 25.68 235.0 GR 22 4 247 2 21 73 250.6 20 39 260 2 19 53 267 4 19.58 279.0 GR 20 2 333 2 19 31 372.9 18 42 399 5 17 49 421 4 17.84 452.3 ' GR 17 7 514 7 16 96 605 .6 16 59 613 1 16 04 524 3 15.52 638.5 GR 14 3 658 7 13 28 670 . 9 12 75 674 8 10 99 677 8 9.55 678.7 GR 9 6 593 4 9 54 720.4 10 44 721 1 12 04 723 2 13 . 98 734.3 1 GR 14 8 740 3 14 80 765.8 15 39 803 2 15 67 806 5 17.90 833.7 I GR 18 2 843 4 18 78 856.7 19 14 873 7 19 45 881 9 19.82 885.6 > GR 20 4 897 9 20 45 944.6 19 82 956 0 19 40 958 0 19.23 959.0 GR 19 2 980 2 19 20 981.8 20 77 988 9 21 15 989 9 21.51 992.4 GR 21 8 993 8 22. 47 997.9 22 01 1001 3 19 85 1013 8 18 .27 1024.5 GR 17 8 1035 1 17 . 41 1043.9 17 20 1055 2 17. 11 1059 7 16.35 1090.0 GR 16 0 1095 8 17 . 01 1114.3 18 13 1129 0 18. 22 1133 4 19.05 1141.0 GR 19 8 1152 7 20. 49 1174.2 20. 83 1138 8 ET 9 1 1 1138.8 NH 5 .03 625 . 9 . 045 745 .0 .03 793 .3 . 04 998.5 .03 NH 1138 8 XI 270. 0 95. 0 625 . 9 745.0 76 .1 83 . 6 80 .5 GR 55. 0 0 53 . 92 2.6 53 . 62 3 . 4 47. 36 14 . 6 44.20 20.3 , GR 43 . 5 21. 7 40 . 76 27.4 40. 58 31. 2 41. 28 42 . 4 41.36 45.0 GR 41 . 9 52 . 9 42. 20 57.4 42 . 43 61. 6 42 . 32 77 . 1 42.87 98.5 ( • GR 43 . 2 99. 4 43 . 23 99.7 43 . 49 100 . 4 43 . 45 172 . 7 42 .42 187.7 (' GR 42 . 3 189. 0 41. 97 190.0 35 . 75 209. 8 32. 00 221. 3 28.26 233.7 GR 25. 5 241. 3 24 . 83 245.3 24 . 95 250. 7 24 . 47 259. 1 22.83 259.5 24JUL02 13:50:19 PAGE 14 GR 22 4 272 .4 22 .35 272 .7 21 .73 " 282 . 9 22 . 48 315 . 8 23 . 13 320 .9 GR 23 6 339 3 23 .24 346 . 8 22 . 08 351 .8 22 .52 361 .3 22 . 13 376 . 9 GR 21 2 390 2 20 .93 3 93 5 20 .53 397 .5 20 53 393 .8 19 .95 406 .4 GR 19 8 410 3 18 32 441 1 18 22 519 .9 18 64 566 8 18 .28 625 9 GR 16 5 641 7 15 39 651 1 13 43 568 1 12 20 577 6 9 37 691 7 GR 9 3 592 1 9 29 692 9 9 44 702 8 9 34 716 2 15 85 745 0 GR 16 2 751 2 15 23 759 8 15 59 774 6 16 56 775 1 15 83 775 9 GR 17 2 777 5 17 35 773 0 17 60 779 1 17 99 780 6 18 33 793 3 GR 17 5 812 0 17 55 834 7 17 23 845 6 17 00 854 9 17 31 873 0 GR 17 8 832 2 13 08 911 7 18 03 916 9 17 25 943 4 17 20 945 0 GR 17 2 947 3 15 80 979 0 15 80 979 2 15 16 993 6 16. 51 1003. 7 GR 16 3 1010 8 15 84 1018 3 15 82 1040 4 16 87 1045 7 • 17 . 98 1075. 4 GR 18 3 1030 4 13 75 1087 0 19 96 1099 4 19. 95 1137. 3 19 . 95 1138 . 3 ET 9 . 1 1 1108 .4 NH 7 03 632.3 . 045 745.0 03 801.4 04 992 .2 03 NH 1062 .6 .015 1089.2 . 03 1108.4 XI 230 . 0 94 . 0 632.3 746.0 50.9 50 .7 50.5 GR 51 . 7 .0 47 .64 9.5 47.33 10 .6 44 .28 16 .0 42 . 84 18 .5 GR 42 .4 20 . 8 41 .08 31.5 42 .32 39 .3 43 .17 45 .7 44 .29 51 .9 . GR 45 . 0 86 .6 43 .56 200.7 43 . 17 202 .3 41.79 207 .4 38 .34 215 .7 GR 35 7 224 .3 33 .77 230.4 28.84 243 .5 . 26.18 250 .3 24 . 99 256 .3 GR 24 5 258 .6 24 .15 269.8 23 .81 271 .7 23 .26 231 . 1 23 .74 355 . 1 GR 22 4 359 . 0 22 .00 361.3 21.56 377 . 8 21.10 337 .3 20 63 402 .2 GR 20 3 406 0 19 .75 411.2 19.20 413 .6 18.71 431 .4 18 15 447 .4 GR 17 7 453 1 IS 01 547.0 15.73 632 3 16.32 635 3 14 61 560 2 GR 13 9 666 7 11 65 683 . 0 11.01 685 3 9.63 694 4 9 34 724 5 GR 9 3 725 1 9 57 726.8 12.37 738 8 13.72 740 3 15 79 746 0 GR 16 1 757 3 16 33 766.2 17.81 779 2 18.24 801 4 18 18 825 7 GR 16 9 334 5 16 32 833.1 15.80 842 7 15.73 845 3 14 77 854 7 GR 12 . 7 872 2 13 00 876.6 13 .55 902 5 14.36 944 5 13 39 974 8 GR 12. 1 992 2 12 63 999. 0 12.89 1001 4 17.29 1002 0 17 22 1009 2 GR 17. 2 1013 . 5 14. 21 1014.2 14.33 1014 . 8 15.04 1025 0 16 53 1028 1 GR IS. 9 1030. 6 17. 44 1033.3 17.99 1037. 3 18 .22 1038. 7 18. 39 1045. 4 GR 19. 3 1048 . 2 18. 35 1057.2 17.80 1062 . 6 17.33 1065 . 1 16. 96 1057. 1 GR 16. 5 1063. 4 12 . 66 1079.9 12.70 1030. 4 12.73 1080. 7 15. 27 1087 . 4 GR 18 . 4 1089. 2 19. 36 1089.3 20.19 1106. 1 20.23 1108 . 4 ET NH XI GR GR GR GR GR GR GR GR GR GR GR 4 290.0 22.0 20.3 17.5 16.2 15.9 17.0 17.7 11.1 10.8 15.1 16.1 9.1 . 03 98.0 .0 18.3 53.6 121.3 192 .1 239. 8 276.9 319.4 351.7 399 .2 465 . 3 275 . 9 276 . 9 21.65 20.16 17.19 16.09 15.94 17.36 17.35 10.30 14.41 15.23 15.10 .045 367.8 5 .1 20.4 66.1 149.6 204.1 250.2 280.1 324.6 366.4 403 .1 467.3 367.8 335.4 21.61 20.03 16.49 15.57 16.07 17.70 15.69 9.50 14.54 15.49 16.41 . 03 326.2 5.8 21.5 81.8 159.3 212.5 259.3 239.0 323.4 367.8 418 . 5 478.7 805.5 330.3 21.30 17.82 16.43 15.69 16.60 17.73 14 . 53 10.40 14 . 74 15.29 16.52 .015 3.8 47.4 82.7 162.4 229.5 253.6 298 . 9 349.2 375.8 430.6 517.0 1 853 .3 20.45 17.71 15.26 15.73 16.93 17.76 13 .73 10.46 14.74 16 . 02 16.30 853 .3 17.5 50.5 109.6 175.0 239.3 273 .2 304.5 351.1 388.7 460.1 539. 6 24JUL02 PAGE 15 GR GR GR GR GR GR GR GR GR 16. 1 16.9 18 . 0 18.8 18.8 20.8 18 . 6 15.8 23.1 548 .5 598 .3 636.2 679.3 757 .1 805.5 327.4 333.5 849.2 15.25 17.23 13 . 06 18 .54 19.13 20.46 18.19 14.55 23.16 555.0 609.3 540.5 594.1 770.9 810.7 830.4 338.7 849.9 16.61 17.44 18 .44 13.23 19.14 19.79 13 .15 16.20 23.16 564.2 516.7 655.9 700.6 773.2 315.1 330.4 842.5 853.3 16.57 17.76 18.52 18 .17 18.96 19.65 17 . 77 18.44 572.1 623 .2 664 . 5 725.5 785.0 817.2 831.3 847.7 16.88 17.78 13.64 13.30 20.39 19.32 17.21 22 .81 593.6 625.4 667.8 733 .2 799. 0 820.2 332.7 849.2 NC XI GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR .03 300 . 0 25.6 22 . 8 18 . 0 18 .1 19.7 19.2 13 .2 13 .4 15 . a 16.6 17.4 17.4 17 . 9 18 . 5 20.0 20.4 21.2 20.6 35.3 . 03 92 . 0 . 0 14 .3 70.3 105.8 165.3 131.5 212 .2 252 .3 275.3 313 .9 366.6 422 .3 498.0 560.8 616 .2 649.2 683 .6 733 .3 768 .7 . 045 181.5 25.62 19.72 17.60 19.42 19.57 17.56 13 .10 13 . 66 15.97 16.85 17.38 17.46 17.84 18.75 20.07 20.41 20.94 20.56 35.30 276.3 2.9 27.1 75.1 129.4 157.8 191.5 212 . 3 253 .6 277.9 324.7 367.3 426.2 533 . 0 564.8 617.7 651.3 685.4 735 .1 768.7 382.5 25.62 18.96 17.53 19.58 19.48 15.48 10.45 14 . 35 16 .17 16 . 87 17.72 17.79 18.23 19.09 19.70 20.55 21.78 21.38 391.0 3.5 31.3 75.8 132.9 169.3 196.2 220.8 252.6 284. 1 335.2 394.0 432 . 1 539. 3 575.3 519.2 557.1 703.7 743 . 7 337.2 24.55 19.05 17.50 19.89 19.41 16.00 10.69 15.01 15 .47 15.83 17 .75 17 .81 18 .27 19.10 19.84 20.65 21.73 33 .22 7.4 48 .5 94.3 142.8 170.4 197.7 237.2 265.1 304.7 337.6 411.2 432.6 541.0 584 .1 623 .7 660 . 8 710 . 9 763 . 9 23 .30 13.92 17.93 19.93 19.35 14 . 73 10 . 74 15.74 15.53 17.37 17.43 17 . 97 13.57 19.11 19.92 21.06 21.72 33 . 99 9.8 51.3 103.3 155.3 171.3 204.3 243.3 275.3 309.3 366.2 419.7 464.0 550.6 536.8 627.7 675.2 714.4 755.9 XI GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR 310.0 29.4 22 .2 19.3 18.5 19.4 18 . 1 17.0 14.3 11.6 15.7 16.6 16.6 16.7 17.9 18 . 5 19.4 20.3 21.6 25.4 96.0 . 0 43 .7 92 .7 139.0 186.2 269.1 316.1 345.0 380.5 422 .3 516.0 556.3 622.3 678.8 721 .5 777.9 815.0 838.4 877 . 0 343.8 24.56 22 . 04 19.29 13.87 19.74 18.15 15.79 12 .80 12 .73 15.36 15.64 17.07 17.38 17.89 18 . 66 19.62 20.29 21.87 25.24 3 92.2 14 . 1 44 . 6 107.5 148 . 9 194 . 6 276.7 320.2 351.6 383 .9 447.4 524.7 585.5 553.9 589.4 727.2 777 . 9 816.4 842 . 5 880.5 354 .4 23.89 19.75 18.86 13.92 20.02 17.80 16.71 11.69 13 .39 16 .16 16.15 17.09 16.93 18.19 19.01 19.35 20.52 24.60 25.17 363.6 16.8 61.4 121.4 149.8 238.7 290.3 323.1 355.2 337.4 455.6 543 .1 587.5 657.4 705 .5 747.0 778.3 820.1 859.0 886 . 9 358 .2 23 .37 19.71 18 .72 19.38 19.99 17.77 16.50 11.54 14 . 94 16.35 16.24 16 . 92 16 . 99 18.23 18.95 19.85 20.85 25 . 69 30.90 21.7 63 .3 124.5 163.0 249.0 292.5 325 . 8 356.5 392.2 462 .7 552.3 619.9 657.6 707.5 749.9 788 . 5 825 . 9 368 .5 910.5 22.09 19.44 13.58 19.44 18.31 17.79 15.12 11.53 15.58 16.24 16.39 16.73 17.27 18 . 51 19.14 19 . 94 20 . 95 25.31 31.02 32.8 80.8 129. 0 159.7 263,9 303 .2 343.3 350.7 405.9 493.8 553.3 621.0 565.4 720.1 762.8 793.9 827.6 369.7 911.1 24JUL02 13:50:19 39.9 927 , 7 XI 320 .0 97 .0 344.3 471 . 7 341.8 342.0 333.9 GR 27 .7 .0 27 .60 .3 27 .10 2.2 25 .59 4 .7 26.54 4,9 GR 26 . 3 8 .3 25 .95 12 . 1 25 .24 15.7 23 .86 20 .2 22.54 24 .2 GR 22 .2 34 .3 22 .15 34 .3 22 .13 34.8 21 .65 42 ,5 21.63 50,5 GR 21 .4 80 .1 21 .45 107 .3 21 .45 108.0 22 .18 113 ,1 22.17 115,9 GR 22 .8 122 .4 22 .60 133 . 9 22 .46 139.0 22 .58 156 .9 21.97 164.7 GR 21 .8 170 .7 21 ,68 200 .4 21 .32 217.9 21 ,42 223 .2 21.47 235 .1 GR 21 .9 245 .3 22 .33 253 .6 22 .44 264.4 22 .49 267 .9 22.69 271.9 GR 23 .4 283 . 1 23 .74 295 .0 23 .58 302.6 23 .62 311 .2 23.31 318.2 GR 23 .0 325 .9 22 .41 333 .8 20 .53 344.3 19 .35 347 .4 19.53 349.1 GR 17 .3 367 .6 16 .79 371 . 1 16 .74 371.4 14 .07 387 .8 13.04 394 , 5 GR 12 . 9 396 . 0 12 . 90 400 .4 12 .75 406.9 12 .53 421 .0 14.63 428 . 6 GR 15 . 9 435 .5 16 .45 437 .5 16 .57 438.5 16 .65 439 5 17.02 443.6 GR 17 . 9 453 .3 18 . 02 456 .2 18 .31 458 .5 19 .66 471 7 20.29 479.0 GR 20 , 4 SOO .2 20 . 19 503 .3 19 .44 514 . 9 19 .78 531 7 19.89 543 . 9 GR 19 . 9 . 546 .2 19 09 554 .6 13 .60 559. 9 18 .43 592 0 13.49 609 , 0 GR 18 6 618 .5 18 84 633 .3 13 .91 634.8 19 .23 659 5 19.30 554 .4 GR 19 5 670 0 19 59 675 .7 19 .73 689.8 20 .04 708 5 19.89 766.3 GR 19 9 772 3 19 90 731 .2 20 18 305.3 21 .03 825 0 21.28 832.7 GR 21 8 837 2-22 81 844 0 23 33 846.1 29 80 872 5 35,32 385.3 GR 40 5 895 5 42 65 901 5 XI 330 0 97 0 305 .1 376 2 258.1 258.1 266.7 GR 26 8 0 25 28 4 5 21 74 15.1 21 65 17 6 21.19 32.4 GR 21 1 38 1 20 39 54 1 20 19 62 .3 19 40 77 7 19.46 83.5 GR 19 7 110 6 19 58 136 3 19 93 157.7 19 74 198 3 19.59 233 .5 GR 19 3 252 2 19 00 265 9 19 62 282.0 20 40 293 9 20,16 305.1 GR 19 8 308 1 19 53 309 0 18 03 313 .5 13 03 313 5 16,11 319.3 GR 15 2 323 3 14 01 325 8 13 16 327.5 13 15 340 9 13.12 353.0 GR 13 7 356 0 15 45 361 8 16 68 353 .6 16 40 367 5 16.41 367.7 GR 18 2 374 2 18 27 376 2 18 84 379.5 13 71 393 3 19.01 416.5 GR 19 0 423 4 19 54 435 0 19 55 447 . 0 19 37 484 3 19.89 494.9 GR 20 3 504 9 19 63 541 3 19 36 542 .3 18 94 543 9 18 .73 544.8 GR 18 4 546 2 18 24 546 7 17 92 548 .2 17 82 543 6 16.59 552.6 GR 17 4 555 3 17. 25 555 5 17. 45 555.8 21. 56 555. 3 21.57 556.3 GR 21. 5 560 8 20. 97 551 0 18 . 39 561.5 18 . 96 562 . 4 19,23 563.2 GR 20. 4 557 3 20. 76 530. 3 20. 92 620.3 20 . 36 629. 1 20.17 640.5 GR 19. 9 641. 7 19. 66 642 . 8 19, 55 643.2 19. 14 545 . 3 18.60 647.3 GR 18. 5 647. 8 18. 05 648 . 5 19. 52 554 . 0 20 . 14 556. 0 20.82 653 .4 GR 20. 8 653 . 9 20, 85 659. 4 21. 61 679.1 21. 77 681. 3 22.24 636.2 GR 23 . 5 702 . 4 24 . 25 705 . 0 25. 23 711.5 28 . SO 729. 3 29.55 738.3 GR 30. 5 750. 1 31. 82 755. 3 33 . 29 763 .3 34. 34 767. 6 37 .43 773 .0 GR 37. S 785. 5 39. 01 788. 3 24JUL02 PAGE 17 XI 340 . 0 54 . 0 277.7 339.1 295 . 6 287.2 292.0 GR 30 . 1 .0 29 . 12 8.3 29 . 11 10.0 29 . 01 14.0 25.76 22.4 GR 25 .5 23 .2 25 .42 23.7 24 .27 35.0 21 . 92 45.6 21.72 45.4 GR 20 . 1 53 .2 20 . 61 57.6 20 .11 77.5 19 .54 107.7 20.24 119.4 GR 20 .2 147 .4 20 .11 174.5 20 . 12 195.9 19 . 93 232 .7 20.17 266.8 GR 20 . 1 273 .0 19 .33 277.7 18 .95 231.3 17 .55 237.1 14.51 300.0 GR 13 .5 304 .5 13 .40 305.3 13 .41 307.6 13 . 42 320.8 15.62 329.3 GR 17 .2 335 .3 17 .34 339,1 17 .63 342 .5 18 . 15 346.6 18 .26 356.3 GR 13 .4 362 .1 18 . 93 373 . 0 19 .27 332.5 19 .74 397.6 19.50 405.0 GR 19 .6 419 .1 19 . 35 452 . 0 19 .79 472.4 19 .81 495.6 21.43 523.7 GR 21 .3 558 .3 21 , 19 575.5 23 .04 587.0 23 .39 591.6 26.04 602.7 GR 26 .7 607 . 1 27 ,28 511.8 27 .67 617.0 30 .35 623.0 42.82 645.5 GR 43 .7 547 ,2 43 . 91 647 . 9 46 .06 656 .8 45 .79 662.1 45 ,47 664.0 GR SO .7 671 .2 51 .03 672.1 52 . 00 674 . 0 53 .71 677.2 XI 350 .0 60 , 0 303 .9 406.4 223.2 252 .1 234.5 ' GR 35 .8 .0 35 14 2,0 35 .17 11.4 34 .78 15.5 33 .74 26.1 GR 33 . 1 32 .4 32 37 41.3 32 .16 42 . 0 31 .70 44 . 9 27.71 57.9 GR 27 .6 68 .3 27 60 68 .5 22 37 91. 0 20 95 102.5 21,60 108.5 GR 21 .3 129 .9 21 39 157.9 21 67 172 .3 21 52 189.7 22.17 207.5 GR 22 .6 217 .3 22 71 220.4 23 45 236.2 23 18 245.5 22.S3 253.3 GR 21 .6 271 .3 20 37 284.3 20 71 288.2 20 38 295.9 19.32 308.9 GR 13 .2 321 7 16 79 335.4 IS 44 343 .9 14 55 349.2 14.60 364.9 GR 14 5 365 8 14 66 355 . 0 17 09 372 . 9 17 11 373 .5 13 .60 386,0 GR 18 6 385 0 18 62 386.6 19 39 406.4 19 90 428.0 19.75 441,5 GR 20 3 452 6 20 25 434.7 20 72 521. 0 20 68 544 .7 21.39 572.9 GR 21 3 577 7 22 35 583.0 24 98 594.9 25 59 595.8 30.99 609.0 GR 39 9 625 1 49 21 543 .2 53 10 652 .4 53 57 561,7 55.10 664.7 XI 360 0 93 0 327.9 419.3 298.0 322 .1 305.1 GR 40 2 0 40 27 1.7 40 05 10.1 38 51 19.2 38.31 20.3 GR 33 5 27 7 33 12 64 .3 32 68 67.2 33 15 96.2 33.94 109.4 GR 34 3 114 5 33 34 118 . 9 30 84 124 . 6 30 82 126.2 30.83 136.7 GR 31 6 141 8 31 52 143 .2 31 34 145.9 30 76 153 .3 30.59 155.8 GR 30 4 159 1 30 12 162 .3 29 94 169.6 29 61 188.5 29.52 210.2 GR 29 0 212 2 28 76 213 . 0 28 55 213 . 5 23 . 09 215 .3 28.03 218.9 GR 27 9 230 1 28 94 233.6 29 05 236. 1 29. 54 233.3 29.90 240.1 GR 30 2 241 0 30. 47 241.8 30. 76 242 . 5 30. 94 247.8 29.55 256.0 GR 27 6 265 5 26. 18 275.9 25. 14 235.9 24 . 18 291.7 23 .48 297.3 GR 22 8 302 9 22 . 27 315.5 22 . 28 322 . 6 21. 09 327.9 20.95 328.3 GR 20 8 330 7 18. 75 353.3 18 . 41 361. 0 15. 51 375.5 14.96 399.0 GR 14 . 9 406 3 17. 02 412 .4 20. 15 419.3 20. 69 424.6 22.54 439.7 GR 23 . 1 447 0 24 . 75 458.3 25 . 54 471.7 25. 97 480.9 25.26 437.4 GR 23 . 6 491 . 1 23 . 37 515.2 24. 19 524 .4 24 . 81 525.8 25.05 527.5 GR 25 . 2 528 . 3 25 . 53 530.5 24 . 74 534 .1 24 . 56 535.7 23 .72 543.9 GR 23 . 7 549. 5 23. 17 578 .2 23 . 24 608 . 3 23 . 35 63S.1 23 ,46 558.3 GR 24 . 2 679 . 7 23 . 67 590.3 23. 50 697.3 23 , 58 722 .5 25.67 746.9 GR 26 . 8 761. 6 28 , 05 764.5 30. 41 770.4 45. 35 804 .1 46.75 806.0 GR 47. 2 306 . 7 52 . 02 818.6 56. 91 330 . 0 13:50:19 18 NH 4 . 03 64.5 .045 128.1 03 597.5 05 672.2 XI 370 0 90 .0 64.5 128 1 434.6 456 ,5 470,0 GR 40 3 .0 40 31 10 4 35 89 16 .8 35 08 13 .6 32 . 11 25.7 GR 30 7 29 .0 25 26 41 5 25 06 43 .9 22 62 57 .4 22 .56 57.8 GR 22 0 54 .5 20 74 71 8 20 32 77 , 6 18 83 78 .9 17 .71 80.5 GR 16 .2 82 .2 16 51 91 9 16 90 106 ,9 17 74 109 .6 19 .02 115.1 GR 19 .6 119 .6 21 02 127 3 21 26 128 . 1 21 47 133 .2 21 88 141.3 GR 22 .2 149 .4 23 71 190 0 23 69 195 , 1 23 10 223 . 8 23 10 231.2 GR 23 .0 269 .1 23 13 302 9 23 00 315 .2 22 94 320 .3 23 11 325.7 GR 23 .5 332 .2 23 42 334 5 23 20 340 .9 23 20 344 .5 23 24 349. 9 GR 23 .2 355 .7 23 28 358 8 25 70 354 ,7 26 04 365 .6 26 04 365.7 GR 25 .0 355 .3 2S 71 373 5 25 59 379 ,6 25 58 381 .7 25 41 337.6 GR 25 .5 3 95 .8 25 43 403 0 25 07 415 . 1 25 06 415 . 9 25 17 423.8 GR 25 .4 434 ,4 26 03 444 3 25 05 445 .0 26 66 451 .7 26 72 452.5 GR 25 .8 453 .3 28 00 455 3 23 02 466 .3 28 07 467 .4 28 41 475.7 GR 28 .4 476 .5 28 10 487 3 28 18 496 .7 28 42 505 .7 23 53 509.9 GR 23 .5 512 .6 28 37 543 4 28 19 549 .4 28 18 555 .6 27 66 561.8 GR 27 .7 562 .6 27 70 563 0 27 33 574 ,2 27 34 575 .0 27 33 576.1 GR 25 .8 585 ,7 26 53 597 5 26 53 598 .0 26 35 603 .3 25 .33 614.3 GR 27 .5 622 .9 36 48 547 1 33 15 650 .5 39 77 653 . 5 48 67 672.2 NH 5 .03 113 .3 .045 159.0 .03 599.5 . 05 658.8 ,03 NH 678 XI 330 0 91 .0 113 .3 169 0 265.7 249 .2 262.3 GR 40 9 .0 40 92 4 0 41 00 5 . 0 39 31 10 .6 39 00 16,7 GR 38 6 18 .3 37. 71 20 6 30 96 34 .7 30 22 35 .4 27 15 42.8 GR 25 1 45 .9 24 . 79 70 4 24 53 75 .4 24 51 77 .7 24 44 102.1 GR 24 1 108 .2 24 . 35 111 4 23 95 111 .6 23 36 113 .3 22 45 116.3 GR 19 7 121 .6 18 . 50 124 1 18 39 124 .2 18 42 131 .5 13 69 142.2 GR 18 9 147 .8 19. 33 148 5 19 44 150 3 20 67 153 .4 21 18 159.6 GR 21 2 160 ,6 22 . 00 165 5 22 33 168 1 22 30 168 4 22 56 169.0 GR 22 7 179 .0 23 . 27 187 3 23 47 194 8 23 48 195 3 23 51 207.1 GR 23 6 215 .3 23 . 67 219 5 23 38 226 7 23 62 247 4 23 78 255.9 GR 24 0 269 9 24 . 10 230 4 24 27 299 0 24 43 307 6 24 53 322.1 GR 24 7 329 1 24 . 63 329 9 24 90 344 7 24 96 346 1 25 59 351.9 GR 26 4 381 3 27 . 20 395 0 28 29 417 7 23 63 424 9 29 33 429,1 GR 29 2 430 4 29. 01 435 5 28 83 437 5 27 24 460 9 27 13 463 .1 GR 27 0 470 9 25. 70 433 1 27 01 504 3 25 91 509 9 26 35 536.2 GR 26 7 543 0 26 , 77 545 2 27 01 547 2 27. 65 562 0 28 07 574 .4 GR 28 2 578 7 23. 41 583 9 23 . 86 599 5 29. 10 605 4 29 21 609.6 GR 29 0 614 1 28 , 68 627 2 31. 14 628 6 33 . 17 631 5 33 25 633.0 GR 33 2 634 8 34, 09 648 6 34 . 18 550 5 34. 98 652 2 39 27 558.8 GR 53 4 673 0 NC .03 . 03 . 045 XI 390 0 99 0 349 .7 407 1 287 .7 267 5 235 .1 GR 35 0 0 36. 04 1 35. 47 9 3 34 . 99 15 2 34. 36 20.6 GR 34 9 20 5 34 , 48 31 5 34 . 34 34 9 34 . 08 37 3 33 . 58 45.6 GR 33 . 5 47 1 34 . 09 52 . 1 34 . 14 52 3 33 . 95 60 7 33 03 70.4 GR 33. 0 70 5. 32 . 77 74 . 3 31. 92 87 2 30. 79 39 3 30. 15 91.3 GR 29. 5 92 7 29. 42 93 . 1 28 . 52 95 0 23. 36 95 9 28. 94 95.1 24JUL02 13:50:19 GR 29 1 96 5 29 17 95 . 9 29 ,33 97 .4 29 .48 97 .7 29 .70 93 .4 GR 30 1 99 6 30 55 101 . 0 31 . 19 103 .0 31 .12 104 .3 30 .91 109 .5 GR 30 8 112 9 30 51 121 .0 30 . 14 130 . 1 29 .90 136 .5 29 .85 137 .5 GR 29 8 142 1 29 01 152 .6 28 .54 174 .2 28 .03 198 .2 27 .67 210 .1 GR 27 6 214 3 27 18 228 .8 25 .45 247 .6 25 .93 257 .5 25 ,72 264 .9 GR 25 4 275 5 25 47 280 .3 25 ,44 293 .8 25 ,27 304 .5 25 10 334 .4 GR 24 9 349 7 22 34 354 .7 21 .35 355 .5 21 .29 357 .8 20 45 372 .3 GR 20 2 377 0 20 15 331 . 8 23 .95 399 . 6 25 .67 407 .1 25 25 423 .3 GR 24 9 433 9 24 99 443 .3 25 . 18 458 . 0 25 .21 466 . 5 25 22 500 3 GR 25 1 531 1 25 27 543 .4 25 .42 564 .8 26 .90 582 .7 . 27 32 588 3 GR 27 5 590 3 27 90 593 .2 23 .01 593 .3 28 17 595 . 0 28 23 595 6 GR 28 4 596 6 28 53 597 .5 28 .71 598 6 29 09 501 .2 29 03 505 0 GR 28 9 622-9 28 55 627 .6 27 .57 637 1 27 23 643 .3 29 63 551 1 GR 30 7 653 6 32 40 657 .9 32 .49 660 1 32 63 665 7 32 72 675 1 GR 34 3 678 1 43 87 595 ,3 45 .47 597 7 47 73 701 .3 XI 400 0 46 0 124 .9 248 .2 320.0 285 8 302.8 GR 54 7 0 52 85 5 .3 50 .51 12 8 38 07 42 6 36 68 46 9 GR 35 5 51 2 33 31 56 . 9 32 . 93 58 3 32 65 67 1 32 63 78 5 GR 32 2 86 2 32 22 87 .6 31 . 95 88 8 31 32 90 0 31 86 92 4 GR 31 6 93 4 31 31 106 .1 31 .03 110 5 30 46 124 9 23 84 150 2 GR 22 7 154 0 22 56 156 .5 22 .79 175 7 22 45 182 0 22 23 196 7 GR 22 1 211 5 22 43 214 ,2 22 .50 214 5 22 76 217 8 22 73 218 5 GR 23 3 219 5 30 46 235 .9 35 .68 248 2 36 03 249 6 35 22 254 7 GR 36 4 261 6 35 21 264 .5 36 .00 271 1 35 70 273 4 37 04 278 2 GR 40 5, 289 2 41 SO 292 .4 45 .93 302 4 48 33 307 8 52 53 315 6 GR 54 0 319 6 NH 4 . 03 392 .2 .06 547.1 . 045 592.1 , 03 1755,3 XI -180 0 100 0 52S .3 1515 2 145 100 145 GR 38 2 0 36. 11 13 6 32 28 25 7 28 75 31 6 26 55 37 4 GR 23 4 45 7 22. 57 47 3 21 97 49 0 21 53 49 1 20 62 50 1 GR 18 9 51 6 19. 26 57 8 20 32 60 3 22 03 54 5 23 24 57 8 GR 25 2 72 7 26 . 11 90 5 26 35 94 2 25 10 119 3 23 72 121 0 GR 23 3 128 7 23 . 06 129 7 20 24 138 9 17 70 147 2 17 SO 143 3 GR 16 9 157 5 16. 44 160 3 15 98 179 7 15 76 192 2 15 12 213 3 GR 14 3 225 5 14 . 33 249 1 14 05 294 6 13 99 377 7 13 06 392 2 GR 13 8 485 3 12 . 81 529 3 10 82 540 2 8 95 547 1 6 31 560 8 GR 6 3 554 1 6, 09 592 1 6 09 593 6 8 47 597 1 8 58 597 8 GR 3 9 599 3 9. 63 606 5 10 11 616 4 10 63 633 6 11 16 651 5 GR 11 6 670 3 11. 58 695 5 12 04 724 3 12 55 764 6 12 85 795 1 GR 13 2 818 0 13 . 51 839 2 15 17 832 5 15 50 888 2 15 87 395 4 GR 16 5 907 7 17 . 07 915 3 15 82 937 4 15 03 950 4 15 74 968 3 GR 15 3 993 4 15. 18 1013 3 15 44 1022 8 14 99 1073 8 14. 19 1091. 7 GR 13 7 1117 9 13 . 44 1124 8 12 87 1150 0 12 67 1159 4 12 18 1173. 1 GR 11 7 1197 3 11, 41 1225 1 11 04 1255 7 10 71 1302 4 11 30 1335 4 GR 11 3 1376 9 10. 68 1435 3 11 20 1452 1 9. 83 1460 5 8 43 1463 1 GR 9 1 1455. 8 10 , 55 1463 9 10 88 1486 7 11. 18 1500 9 11 93 1503 3 GR 12 . 7 1515 . 2 14. 00 1526 2 15 39 1535 1 15 . 71 1601 3 15. 90 1732 1 GR 16 . 8 1736. 3 17. 17 1739 0 18 53 1746 3 19. 80 1751 0 21 00 1755 3 24JUL02 13:50:19 PAGE 20 QT 1 1900 NC .03 . 03 03 XI 410 0 100 . 0 465.6 476 9 205 210 207 GR 14 4 . 0 14 40 21 3 14 .43 25 3 14 .43 53 6 14 .57 79 .5 GR 14 5 104 .3 14 68 133 6 14 .89 177 1 14 . 94 219 1 14 98 272 3 GR 15 1 290 .5 14 57 312 8 13 .98 329 0 13 .32 339 1 13 55 350 2 GR 13 .0 364 .4 12 83 390 7 12 .77 394 3 12 .39 411 5 12 33 414 0 GR 12 .2 418 .0 11 86 434 7 11 .63 449 .9 11 .52 457 0 11 33 450 5 GR 11 . 1 465 . 6 10 12 468 1 9 .97 468 3 9 .36 469 8 9 39 475 4 GR 10 .6 476 . 4 11 39 476 .9 11 .51 485 0 11 .69 500 7 11 54 514 8 GR 12 . 1 523 .5 12 24 530 0 13 .72 547 2 14 .32 555 8 14 76 560 9 GR 14 .8 561 . 9 14 79 563 .9 15 .29 572 0 15 .34 574 6 15 66 579 1 GR 15 .8 581 .1 15 98 583 2 16 .56 595 3 15 .71 596 8 15 97 600 9 GR 17 .0 503 .9 17 65 625 2 17 .70 526 2 13 .07 647 5 13 64 664 7 GR 18 .7 668 .2 13 99 676 3 19 .25 683 4 19 .38 686 4 19 57 691 0 GR 19 .3 695 . 0 13 53 693 1 18 . 17 598 6 18 . 03 703 6 17 94 712 2 GR 19 .4 714 .8 19 51 715 3 19 .19 730 0 18 .93 734 0 19 29 745 2 GR 21 .5 757 .8 21 55 758 3 21 .58 758 3 22 .10 750 8 24 96 772 0 GR 25 .3 773 .5 29 04 786 7 29 .69 789 2 32 . 95 801 3 33 79 804 9 GR 34 ,6 808 .4 36 77 321 1 38 .10 325 1 39 .27 830 7 39 76 837 3 GR 40 .0 842 .3 40 84 849 4 40 .91 350 5 41 .04 352 0 41 89 362 1 GR 42 . 1 868 .2 42 00 395 5 42 .37 901 6 44 .76 906 1 47 20 911 2 GR 47 .5 913 .3 47 17 946 1 47 .15 948 6 47 .35 952 2 47 81 95? 3 XI 420 . 0 100 .0 514.3 524 3 177.5 176 1 176.7 GR 25 .4 .0 25 34 3 4 24 72 14 1 24 30 20 5 22 20 36 4 GR 21 9 38 .7 21 74 39 6 21 24 43 5 20 22 50 9 20 17 51 2 GR 18 4 65 .0 17 79 71 0 17 71 73 5 17 45 33 9 17 01 93 9 GR 16 8 96 .5 16 41 104 7 15 90 110 3 15 65 113 7 15 31 121 1 GR 15 1 134 .8 15 02 148 2 14 95 166 0 14 33 195 9 14 57 226 1 GR 14 6 240 .4 15 70 253 3 16 97 256 1 15 50 281 5 15 08 303 7 GR 16 1 303 .7 15 41 313 7 15 03 322 7 15 05 333 2 14 84 353 2 GR 14 9 372 .7 15 05 396 2 14 94 423 2 14 58 445 7 14 52 449 2 GR 13 9 470 .8 • 13 54 489 3 13 26 500 3 12 42 514 3 12 37 515 3 GR 11 3 517 .3 10 99 517 8 10 26 521 3 10 55 521 3 12 44 524 3 GR 12 8 528 .8 13 29 539 3 13 08 550 8 13 13 556 3 13 41 568 8 GR 13 7 573 .3 14 . 12 580 3 14 30 589 8 14 24 508 3 14 30 614 3 GR 14 4 626 .3 14 . 35 640 9 14 94 644 9 15 23 665 4 15 25 665 9 GR 15 5 679 9 15 . 85 685 9 16 21 696 4 16 45 705 9 IS 92 715 9 GR 17 0 717 9 17 , 94 721 9 20 27 729 9 22 49 737 9 23 70 743 4 GR 24 9 743 4 25. 30 755 4 25 97 757 4 25 97 773 9 25 20 786 9 GR 26 3 799 5 25. 75 801 5 28 52 810 0 30 23 317 0 32 54 826 0 GR 34 1 831 5 36. 53 842 5 37 94 848 5 40 25 360 0 41 26 865. 5 GR 42 0 871 0 42 . 20 872 0 42 27 873 5 43 06 839 0 43 30 897. 5 GR 43 3 910 0 44 . 09 914 0 46 12 923 . 5 46 08 9S5. 5 46 08 956, 1 13:50:19 XI 430 0 95 0 409.3 422 .4 127.3 128 .6 127 . 5 GR 23 1 0 23 04 .6 22 .78 2 , 1 21 34 11 . 1 21 .35 11 .2 GR 21 5 12 4 23 14 25 .6 23 ,16 27 . 8 23 14 30 . 3 20 .91 33 .9 GR 19 7 36 0 19 79 42 . 1 19 .96 51 . 3 20 52 52 . 6 20 .55 62 .5 GR 20 6 81 .3 20 43 112 .5 20 . 11 129 .0 19 88 131 , 3 19 .47 136 .1 GR 19 4 138 .2 18 35 149 , 1 18 .13 151 .3 17 70 154 .3 17 .65 155 5 GR 17 4 158 .4 16 56 171 .3 15 .97 182 . 0 15 87 184 .6 15 90 195 0 GR 15 2 203 .4 15 25 213 .5 15 .59 225 .2 16 09 264 . 3 15 34 274 9 GR 15 3 292 .4 15 49 317 .5 16 .19 321 . 0 15 80 335 1 15 59 365 7 GR 15 .4 387 .8 15 90 400 .3 15 .31 409 8 14 90 413 .3 14 93 416 4 GR 14 .9 419 .9 15 31 420 .9 15 .71 421 . 9 16 05 422 .4 16 24 426 4 GR 16 .3 442 5 16 29 458 .5 IS .58 483 1 16 66 506 .2 17 14 528 2 GR 17 .4 532 .3 17 42 535 .3 17 .31 541 3 17 93 544 3 13 55 553 3 GR 18 3 558 .3 18 99 564 .4 19 . 19 557 4 19 35 570 4 19 71 572 9 GR 20 .1 579 9 20 15 581 .4 20 .39 588 .9 21 55 593 5 23 19 602 3 GR 23 .2 602 3 23 20 602 3 26 .99 619 4 27 48 621 0 27 87 522 6 GR 31 9 636 .6 33 72 642 3 35 . 99 652 2 37 59 553 9 40 67 673 4 GR 41 .0 675 .5 41 35 682 .3 41 .82 691 5 41 76 701 0 41 93 720 1 GR 42 .3 757 .0 42 46 762 .8 42 .55 776 2 44 60 785 5 45 32 789 2 GR 45 . 9 807 .9 45 53 827 .1 44 .40 829 2 44 12 853 1 44 25 370 2 XI 440 0 95 0 33 .9 414 5 190 163 9 133 . 9 GR 30 .3 0 30 09 2 5 28 .80 18 7 27 11 30 5 25 52 35 3 GR 24 .3 42 8 24 21 43 .3 21 ,28 54 6 20 87 56 7 20 92 57 3 GR 20 .5 59 4 19 33 70 7 19 .37 73 4 17 03 32 0 15 31 88 9 GR 15 3 114 6 15 30 119 9 15 30 147 3 IS 29 165 5 15 29 181 5 GR 15 3 190 6 15 29 214 2 15 76 217 9 16 01 220 1 16 06 225 4 GR 16 0 230 3 16 04 238 3 16 05 244 2 16 09 253 3 16 04 267 2 GR 16 1 274 7 15 23 287 0 15 38 313 3 15 98 322 4 15 29 327 2 GR 15 3 331 5 IS. 29 332 0 15 28 342 2 15 28 354 5 15 28 367 9 GR 15 3 380 2 15. 27 398 4 15 27 402 1 15 27 414 5 15 54 415 0 GR 16 0 416 1 16. 14 419 8 16 78 434 3 16 88 437 5 17 38 441 2 GR 13 4 449 8 19. 52 460 6 19 66 461 6 20 35 467 0 21 10 473 4 GR 21 5 482 0 21. 59 436 8 21 78 489 4 22 36 503 9 22 73 515 2 GR 22 9 525 3 23 . 41 539 2 23 71 561 2 23 87 566 1 23 72 586 4 GR 22 6 597 1 22. 14 600 8 22 15 603 4 22 07 612 1 22 35 616 4 GR 24 1 622 3 26. 51 532 5 27 34 637 3 31 06 649 1 32 15 652 8 GR 36 3 667 8 37, 04 571 0 37 11 671 1 37. 31 672 2 40 62 535 6 GR 40 9 697 9 41. 17 702 2 41 39 703 a 42 65 713 9 42 58 717 1 GR 42 9 731 1 44 . 09 744 4 44 22 753 0 44 . 39 755 9 44 52 777 2 GR 44 2 779 3 43 . 85 798 0 44 18 825 3 44 . 44 842 5 44 41 846 8 XI 450 0 38 0 401 . 9 438 8 250 259 0 277 .3 GR 28 4 0 28. 63 6 2 28 67 8 3 23 . 61 9 3 27 65 18 2 GR 27 3 21 3 22 . 99 35 3 22 15 38 4 21. 67 41 0 19 55 55 1 GR 19 0 58 0 18. 84 72 2 18 63 35 7 18 . 59 93 5 13 . 42 115. 3 GR 13 2 135 6 18 . 39 163 6 13 05 178 1 18 . 03 184 9 18 . 07 208 3 GR 18 1 236 3 13 , 26 256 0 19 00 258 5 19. 82 236 1 19 96 288. 7 GR 20 0 289 3 20. 30 296 0 20 89 309 0 21 . 20 314 7 21 79 330 3 GR 22 2 334 5 22 . 35 337 0 22 02 333 5 21. 51 341 2 21 45 343 . 8 GR 21 4 346 9 21 . 77 349 5 22 08 350 5 21. 72 353 7 19 10 383 3 24JUL02 13:50:19 PAGE 22 GR GR GR GR GR GR GR GR GR GR 18 . 8 15 . 9 15.6 17.7 13 .2 18 . 0 21.0 28 . 0 29.4 29.5 337.5 415.5 433 .7 492 .3 529.7 574.4 617.0 661.6 638 .6 726 .1 18 .57 16.28 17.77 17.53 18.22 19.37 22.93 28.29 33 .38 29.60 391.1 416.5 438 , 8 501.2 537.0 597,8 632 . 6 662.7 703 .2 738 . 6 18 .13 15.43 17.79 17,23 18.21 19.54 23.29 28.20 33.39 29.35 395.3 418 ,1 442 .5 512 .1 539.1 500.3 535.2 665.3 705.3 747.4 17.33 15.37 17.33 17.44 17.93 20.04 23 .40 27.98 33 .96 401,9 424 , 8 456.5 517.3 553.6 605.6 636.2 681.4 713.1 17.50 15.33 17 . 89 17.89 17.36 20.60 25.06 23.19 33.83 410.3 427 .4 471.1 525.1 565.6 612.3 645.1 684.5 713 .2 XI GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR 450 , 0 29.1 21.3 20.4 20 . 5 21.3 19.8 15.7 18 . 8 20.1 22 . 6 23 , 0 20.4 19.9 19.6 20.0 21.1 21.9 25.6 24 . 7 94 . 0 .0 42.0 105.2 154.3 191.7 263 .0 282 .7 297.4 319.1 352.5 393.5 445.6 508.3 523.5 545.2 548.4 568.1 600.5 537.9 277.1 28 . 80 21,19 20.38 20.76 21.10 18 .87 15.73 19.15 20 .15 22 .64 22.32 20.11 19. 97 19.36 19.99 21, 07 22 .70 25 .49 24.72 293.3 6.1 45.0 124.4 172.4 195 .2 272 . 6 285.3 305.0 319.6 359.1 399.0 452 .7 509,3 533.6 545.7 550 .4 575.2 504.5 539.4 241.7 27.65 20.68 20.37 20.95 20,77 18.21 15.76 19. 34 20.30 22 . 96 21,60 20.07 20.02 19.94 19.93 21.02 22 , 97 25 .13 24 .74 251.5 11.1 75.3 126.9 176.0 208.8 277.1 238.3 307 . 0 325.2 372 .2 419.8 467.3 510.3 541.2 546.2 554 . 5 577.2 616.2 541,4 246,5 25 .23 20.59 20.38 21.62 20.33 16.64 18.01 19.42 20.55 23 .11 21.51 19.99 20.73 20.03 20 .14 20.94 24,51 24.33 24.94 23 .8 81.9 148 .7 136,6 233.7 278 .2 292 .8 309.0 329.3 373.3 420.8 433 .0 520 .4 543 .7 547.2 556.0 588.3 623 .3 555.6 2,2 . 86 20.45 20.38 21.59 20.16 15,61 18.73 19.92 21.29 23 .12 21.33 19.96 20.57 20,02 20.36 20.95 24 .51 24.72 34.4 98.5 150 ,2 187 .1 245.3 273.7 293.8 316.1 336.3 333 .9 424.3 490.6 520.9 544.7 547.4 560.0 588.3 635.9 XI GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR 470.0 30.7 29.8 25.3 24.1 24 . 0 22.2 15 . 7 22.3 23.1 23 .3 22 . 9 22 . 9 22.8 23.5 26.5 23 .5 79.0 .0 22.5 53.0 93.5 140.0 184.5 202 .5 219.0 243 . 0 316.0 378 . 0 427.0 495 . 0 542 .5 575 . 0 610 . 0 194 . 0 30.69 28.63 24.68 23 . 99 23,99 22,02 15.56 22 .47 23.26 23 ,23 22.84 22.69 22.83 23 .43 25 .15 23.61 219.0 2.5 27.5 72 .5 99.5 141.5 191.5 204 .5 220.5 250.0 324.0 391.5 447.5 505.0 547.5 538 . 5 610.5 251.4 30.63 27.58 24 .56 24.00 23 .83 21.85 15.35 22 .51 23 .76 23 .14 22.84 22.68 22.85 25.55 25.92 25.07 262 .2 7 . 5 33.0 76 . 0 126 . 0 144 .5 194 . 0 208 . 0 221. 0 307.0 338,5 400,5 452.0 512 , 0 557.5 594 . 0 525.0 260.5 30.28 26.11 24.55 24.00 23.62 19.31 20.40 22 .55 23 . 78 22 . 92 22.85 22 .57 23 .01 25.01 25.69 26.55 18 .5 41. 0 76.0 131.5 151.5 197.5 208.5 221.5 307.5 357.5 421.5 474.0 519.5 561.0 593 ,5 648.0 30.20 25,56 24 .53 24 . 00 22.59 17.97 20 , 99 23.07 23.40 22.94 22.86 22 .59 23.33 26.75 23.66 21.0 49.0 77.0 133.0 173.0 199.5 209.0 239.0 314.0 365.0 424,5 479,0 533 .5 572.0 509.0 24JUL02 XI 430 0 100 .0 198 .2 221 .3 235 . 0 236 .7 236.0 GR 33 8 .0 33 89 2 .5 32 77 11 .5 32 71 13 . 0 32 .50 24 .1 GR 31 0 24 2 28 95 25 .2 28 66 34 . 7 28 55 43 .3 28 .24 53 . 8 GR 28 5 58 3 29 73 71 .3 29 79 80 .9 29 52 107 .5 28 .64 113 .5 GR 27 3 122 .5 27 27 124 .5 25 92 133 .5 25 34 153 .6 25 .73 164 .6 GR 25 4 175 .7 25 29 132 .7 24 73 138 .7 24 54 194 .7 24 .64 194 .7 GR 23 7 193 .2 19 43 200 .7 19 30 202 .2 13 84 213 ,3 19 13 213 .8 GR 19 4 213 .3 21 87 218 3 24 90 221 .3 25 08 224 ,3 25 63 232 .8 GR 25 4 263 .9 25 27 280 0 28 17 320 . 1 29 17 323 .6 29 07 332 1 GR 28 3 338 . 1 30 05 346 2 30 72 350 2 30 33 351 .2 31 25 355 2 GR 32 ,6 372 .3 34 59 3 92 8 34 62 393 3 34 52 394 .3 34 07 399 9 GR 32 9 402 .4 32 09 404 9 31 34 407 9 31 13 415 .4 31 50 422 4 GR 33 0 424 .4 33 30 433 0 33 01 448 0 33 14 454 .0 33 11 463 1 GR 34 3 486 . 1 34 68 492 6 35 10 493 1 35 98 512 .7 37 60 531 3 GR 37 3 535 .3 37 36 562 3 35 92 573 4 36 26 579 .4 35 72 585 4 GR 34 ,2 597 .4 33 47 612 0 34 29 623 5 34 57 641 .6 34 59 643 1 GR 35 2 673 .7 35 26 575 7 35 34 677 7 35 80 673 .2 35 80 678 2 GR 35 3 578 .7 36 25 694 8 35 30 704 8 37 18 710 .3 37 96 718 3 GR 38 9 728 . 9 39 53 735 9 40 43 745 9 41 39 760 .5 41 81 766 0 GR 42 2 770 ,0 44 77 782 5 45 OS 789 5 49 57 306 .5 50 29 809 5 GR 51 1 813 . 1 54 60 823 2 57 06 833 7 58 61 845 .7 50 23 853 2 XI 490 0 92 .0 274.6 235 3 248 .8 248 1 247.9 GR 42 1 .0 42 29 2 5 42 25 8 1 42 09 11 2 42 05 11 7 GR 41 2 22 3 33 60 25 4 36 43 27 9 36 34 30 4 34 91 45 2 GR 34 8 46 7 34 13 53 3 33 63 57 8 33 74 59 9 33 79 63 5 GR 33 7 72 5 34 16 78 7 35 02 37 3 35 45 92 9 36 23 104 5 GR 36 4 110 6 36 89 123 8 37 15 128 9 36 75 132 4 36 43 134 4 GR 36 5 135 0 36 41 135 0 35 03 138 0 35 02 138 1 35 00 138 5 GR 34 3 153 3 34 32 153 8 34 32 154 4 34 89 155 4 35 13 155 9 GR 35 4 156 9 35 41 153 4 35 43 161 5 35 44 152 0 35 41 163 0 GR 35 0 164 0 34 49 154 5 34 45 165 5 34 27 175 7 34 27 175 7 GR 34 3 175 7 35 11 175 7 35 15 177 7 35 51 130 3 36 70 185 3 GR 36 4 187 9 35 41 192 0 33 96 200 1 31 45 215 3 31 42 215 8 GR 30 7 220 9 30 17 228 0 29 17 241 1 29 02 243 7 28 03 257 9 GR 27 9 259 9 27 83 260 4 27 66 262 4 26. 55 274 5 25 89 275 2 GR 23 9 230 2 26 47 283 8 27 47 285 3 28 . 29 306 6 23 48 310 5 GR 29 0 318 8 29 34 324 8 29 57 329 4 29. 73 330 9 30 90 342 1 GR 31 5 345 2 33 43 357 3 33 78 359 3 33 . 62 365 4 33 29 376 1 GR 32 0 395 9 31 29 410 1 30 95 414 1 30. 96 424 3 30. 95 426 3 GR 31 5 431 9 31 59 432 9 31 97 433 4 34 . 90 434 9 39. 52 442 0 GR 41 1 444 5 41 19 455 2 XI 500 0 65 0 233 .7 257 3 159.6 157 7 157 .7 GR 41 8 0 41. 75 2 6 41. 63 7. 8 36. 34 31 4 36. 33 31. 5 GR 36 3 31 5 35 . 25 43 0 34 . 30 46. 7 33 . 45 50 4 33. 25 58 2 GR 33 2 59 3 32 . 13 75 0 32 . 03 76 . 0 32. 09 78 5 32, 21 94. 9 GR 32 2 100 7 32 . 13 116. 9 31. 39 130 . 0 31. 98 142 5 31, 67 165. 5 GR 31. 6 163 . 2 31. 41 174 . 0 31. 01 189. 2 30. 80 195 0 30. 32 209. 1 GR 30 . 1 227. 4 30 . 03 230. 5 29. 75 233 . 7 28 . 78 244 7 26, 82 248. 9 GR 25 . 4 251. 5 25 . 41 254. 1 25 . 39 255. 7 23 . 15 257 9 23 . 60 258. 4 13:50:19 PAGE 24 GR 28 7 259 .9 29 60 267 ,3 29 95 284 . 0 30 .03 286 . 1 30 . 05 287.2 GR 30 1 289 .8 30 08 297 .7 30 05 311 . 8 29 . 99 316 .5 30 .05 333.8 GR 30 3 349 .5 30 37 355 . 3 30 75 377 .8 30 .30 381 .4 31 . 14 334 .1 GR 31 6 388 .8 32 44 395 .6 32 53 393 .3 32 .63 402 .5 33 .55 409.8 GR 35 2 420 .3 36 50 421 . 3 38 05 423 .4 42 .08 430 .2 42 82 431.7 GR 42 3 437 .0 42 83 438 .5 42 93 441 .2 42 .79 452 .2 42 76 456.9 NH 2 05 76 . 2 03 593.4 XI 510 0 70 . 0 245.8 278 .6 184 .2 189 . 1 187.9 GR 53 8 .0 48 29 16 .2 48 12 16 . 7 48 06 17 2 43 24 32.8 GR 40 3 42 .3 39 44 47 .3 37 97 54 . 0 37 71 55 1 37 58 57.3 GR 36 2 76 .2 36 03 80 .5 35 83 85 . 0 35 53 89 0 34 81 99.6 GR 34 3 116 .3 34 70 122 . 3 34 50 123 .4 34 11 149 6 33 87 174 .6 GR 33 3 176 .3 33 77 179 .6 33 27 198 . 0 33 01 204 7 32 44 224.6 GR 32 3 229 .7 32 20 233 . 0 31 77 245 .3 30 33 249 6 29 54 255 . 3 GR 27 7 257 .5 27 70 257 .5 27 67 258 .0 27 27 263 1 28 43 265.3 GR 29 4 266 .9 30 17 268 .1 30 39 269 . 1 31 27 278 6 31 57 279.2 GR 32 0 293 . 1 32 25 315 .9 32 76 339 3 32 76 340 3 32 77 341.4 GR 32 8 354 .2 32 78 377 . 1 32 80 387 .0 32 78 408 2 32 73 408.7 GR 32 8 409 .8 32 86 432 .1 32 92 440 5 32 95 452 5 33 03 459.9 GR 33 0 471 .0 33 10 472 .1 33 20 473 3 34 53 496 1 34 40 497.8 GR 34 0 503 .9 34 02 507 .8 34 34 520 0 34 26 530 5 34 53 545.0 GR 34 6 547 .2 35 89 550 .5 44 33 575 0 45 37 583 9 46 06 593.4 NH 2 .05 53.8 .03 730.8 XI 520 0 93 .0 197.0 207 .0 253 .1 264 3 261.5 GR 63 4 .0 52 05 2 .1 59 93 4 3 57 43 3 5 56 57 14.8 GR 56 3 17 .4 54 27 20 .6 54 02 21 1 53 67 23 7 51 94 35.3 GR 50 8 39 . 0 49 56 42 .7 45 51 S3 8 45 20 61 2 44 37 70.1 GR 42 6 76 .4 42 31 75 .9 42 06 79 5 40 60 93 8 39 93 100.1 GR 33 6 112 .2 38 28 118 .6 38 OS 127 0 37 35 132 2 37 77 136.5 GR 36 6 143 8 36. 10 147 .0 35 56 155 4 35 18 160 7 35 02 163 .4 GR 34 8 169 7 34 . 39 132 3 34 32 136 6 33 22 192 3 32 47 197.0 GR 31 8 198 1 30 . 69 199 .7 30 68 201 3 30 66 205 5 31 78 207 . 0 GR 31 8 207 0 33 . 75 219 7 33 91 220 3 34 11 221 8 34 31 232.3 GR 34 5 242 9 34. 55 245 0 35 01 265 0 35 15 274 0 35 33 286.1 GR 35 3 302 4 35. 35 307 7 35 42 315 1 35 74 329 3 35 35 333.0 GR 36 0 338 .3 36. 29 349 8 35 57 363 0 36 74 371 5 36 69 330.4 GR 36 5 388 3 36. 26 400 4 36 05 423 0 36 OS 423 2 36 05 423.7 GR 36 3 445 2 36. 41 455 8 36. 57 473 7 35 81 432 7 36 93 496.3 GR 36 9 509 0 36. 91 519 5 35. 77 532 7 35 56 545 9 36 80 553.3 GR 37 2 560 6 37. 80 573 8 37. 48 579 5 37 33 582 2 37. 44 533.5 GR 37 7 593 1 37. 67 610 7 37. 81 617 0 37. 59 628 5 37 39 641.2 GR 37 1 648 6 36. 99 654 4 38 . 23 662 3 39. 60 670. 2 41. 21 679.7 GR 44 4 692 3 46. 55 701 3 45. 82 705 0 45 . 83 707 . 6 46. 88 712.4 GR 46 9 718 2 46 . 98 726 5 47. 02 730 3 24JUL02 13:50:19 25 NH 2 03 549.2 03 591.8 XI 530 . 0 82 .0 104.5 135 .7 291.3 288 .4 290.3 GR 70 . 1 .0 65 .52 9 .4 65 .32 9 .9 63 . 94 12 .5 53 .29 22 .4 GR 53 .6 31 .7 53 . 05 33 .2 53 .07 35 .4 53 .04 46 .3 50.16 54 . 0 GR SO . 0 54 .5 49 .82 54 .7 45 .55 68 .2 42 .73 81 .7 42.58 31.7 GR 42 .7 32 .2 42 .06 90 .0 40 .58 96 .2 33 .70 104 .5 35.97 107.7 GR 34 .3 110 .3 31 .89 113 .9 35 .40 121 .2 36 .67 124 .3 35.83 124.3 GR 37 .5 133 .1 37 .74 135 .7 38 .56 155 .5 38 .53 163 .7 38.63 163.5 GR 39 .0 136 .1 39 .01 188 .2 39 .11 203 .8 39 .15 210 .5 39.15 211.5 GR 39 .2 229 .7 39 .27 237 .5 39 .50 253 .6 40 .14 266 . 1 40.12 274.9 GR 40 .3 277 , 0 40 .56 273 .0 40 .59 280 . 1 40 .57 283 .3 40.53 235.3 GR 40 .5 286 .4 40 .44 236 .9 40 .62 290 . 0 41 . 03 299 .3 41.11 308.2 GR 41 ,3 312 . 9 41 .42 320 . 1 41 .35 326 . 9 41 .43 334 .2 41.00 341.5 GR 40 , 9 347 .2 40 ,51 361 .2 40 .53 363 .3 40 .50 369 . 5 40.39 382.5 GR 40 .3 398 .1 40 .26 401 .2 40 .33 404 .8 40 .64 424 . 5 40.99 439.6 GR 41 .0 450 .5 41 .56 472 .3 41 .51 473 .9 41 .53 475 .5 41.80 496.8 GR 41 . 8 506 . 1 42 10 515 .0 42 . 69 525 .3 43 .50 534 .7 43.77 536.3 GR 44 . 1 537 .3 45 59 539 .4 46 .21 548 .2 46 .27 549 .2 48.52 555.5 GR 52 . 9 563 .0 53 12 591 .8 NH 3 .03 600.6 .03 639 . 03 670 . 6 XI 540 .0 37 .0 384.3 400 .6 315.8 307 .7 314 .4 GR 83 . 0 .0 82 35 1 .4 31 23 3 ,5 79 54 7 5 74.41 19.3 GR 71 .2 26 .2 • 67 39 33 .4 66 79 34 .9 55 95 33 1 65.22 40.8 GR 62 .3 50 .3 62 17 63 .9 62 16 67 1 62 15 58 6 62.08 72 . 9 GR 51 8 96 .0 51 67 106 .0 61 44 111 8 57 63 121 3 57 . 08 122.8 GR 44 8 154 4 43 52 158 .1 43 38 173 4 43 37 174 4 43.31 176.5 GR 43 0 190 7 42 77 195 5 42 66 198 6 42 48 200 2 41.58 211.7 GR 42 4 228 5 42 42 228 6 42 05 244 4 41 99 249 1 41.37 252.8 GR 41 7 267 5 41 76 274 4 41 78 276 5 41 34 278 5 42.61 2 97.5 GR 42 5 303 3 42 55 318 5 42 39 326 4 41 79 341 2 41.31 348.1 GR 41 6 364 9 41 15 370 1 40 95 374 3 40 69 384 3 37,67 387,5 GR 36 9 388 5 37 OS 339 7 37 47 393 8 38 96 396 5 39.97 398,5 GR 40 7 400 5 41 48 420 6 42 22 438 0 42 21 440 1 42,17 443 , 3 GR 41 3 465 9 41 S3 483 3 41 99 491 2 42 15 502 2 42,29 513.3 GR 42 4 521 7 42 38 541 6 42 87 566 4 42 91 567 9 43.19 583.2 GR 43 3 533 3 44 . 81 594 7 44 89 600 6 44 88 602 7 45.09 604.8 GR 47 3 615 8 43 . 56 523 7 49 13 625 3 48 . 84 627. 4 47,95 631.6 GR 51 4 639 0 55 . 26 643 0 55 19 650 6 56 . 34 657. 4 55.56 559.5 GR 57 8 653 7 SO. 11 570 5 NH 3 .03 103 .2 .04 255 . 1 .03 774 .3 XI SSO. 0 97 0 400 .4 515 3 236 ,5 235. 2 231 .0 GR 69. 3 0 58 . 00 2 7 52. 76 14 . 9 61. 64 17. 7 51.68 18 .7 GR 61. 7 23. 2 59. 81 23. 7 59. 57 29 . 8 S3 . 96 37. 0 58.80 33 .7 GR 58. 0 42 . 5 55 . 91 52 . 5 . 54 . 37 58 . 6 53. 18 69. 0 53 .19 81.2 GR 53 . 0 . 93 . 3 53 . 06 95. 0 53. 27 103 . 2 53 . 56 114. 9 53 .68 126.0 GR 54 . 0 134. 2 54 , 09 140. 9 53 . 79 150. 3 53. 68 152. 4 53 . 60 159.1 GR 53 . 4 155. 1 53 . 37 167. 4 53 . 15 172 . 4 53 . 13 174. 5 52 .87 185.0 GR 52 . 9 191. 7 52 . 41 194 . 4 51. 85 201. 6 51. 03 208. 3 50 . 06 213 .7 GR 49. 4 219. 2 48 . 23 227. 5 48 . 10 235 . 8 47. 59 255. 1 • 47.47 256.8 24JUL02 13:50:19 PAGE 25 GR GR GR GR GR GR GR GR GR GR GR GR 47.2 45.2 47.2 43.2 42.3 43.1 44 . 1 44.5 47 . 3 53 .4 55.5 69.4 251.8 310.3 336 , 9 376,1 440 .7 513 ,5 551.7 619.5 560.4 702 . 9 726.2 769.2 47.13 44,33 46.75 43 .23 42.25 44 . 10 44 . 11 45.90 47 . 32 54 .39 58 . 58 70.90 253 .4 312.5 346.8 396.5 449.5 515.3 568.3 540.5 662.6 710.1 733,3 774 .3 45.47 46.71 44.53 43 .37 42.27 44.03 44.06 46.21 47.50 53.55 62.41 295 .5 320 . 9 360 .1 400.4 509.1 526.3 580.4 643 .3 663 .7 713 .5 745 . 0 45 .37 47 .10 44 .45 43 .08 42 .27 44 . 03 44 . 06 46.60 47.30 52 , 99 67 .77 298 .3 322.5 351.1 400.9 510.8 529.1 593 . 6 547.2 665.4 716,2 754.2 45.45 47.31 44 .37 42.24 42.27 44 . 03 44.30 47.14 50.33 55.21 58.09 307.1 331.4 361.7 401.5 511.9 531.2 613 .5 653.3 685.3 722.3 765.4 NH XI GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR 2 560.0 70.7 59.1 52 .2 50.4 49.5 50.2 46.5 45.6 46.0 46.4 42 . 3 43 . 9 50.0 47 . 7 49.8 48.5 48.1 46.2 53.6 62.8 .045 100.0 .0 20.0 57.9 92 .4 110.0 144.0 •190.6 256.5 296.0 355 .3 404.7 447.6 485 .4 503 .0 531. 8 559.2 582 .2 546.5 717.3 750.7 83 .6 353.1 70.25 56.55 52.10 49.47 50.10 50.15 45 . 56 46.57 45.49 45 .16 42 .25 45.30 50.17 49.74 50.33 47.58 48 . 09 46.04 54 . 00 62 . 97 .03 .451.8 1.0 25.5 59.5 94.6 112.2 149.5 192 .4 259.3 311.5 362.5 413.5 453 . 0 487 .1 505.8 549.3 560.9 590.0 664 . 6 720,0 751,2 773 .3 109.7 70.05 56.74 50.97 48 . 94 50.32 50.36 45.56 46.43 46,73 42.73 42 ,25 45.50 43.31 50.00 50.45 47.31 47 .48 47 . 11 55 .44 63 .29 111 . 1 1.3 34.2 74.9 95.7 113 . 8 159,8 193.4 264.3 320.7 372 . 9 438 .1 461.3 490.9 506.3 551, 5 571. 8 598 .1 672.8 732.1 751. 9 105 , 0 59 .23 55.72 51.06 48 .94 50 .56 48 ,97 45 .55 46 .37 47.26 42 .24 42 .25 47 .54 47 . 95 50 .01 49.92 47 .59 46.14 49.90 55.14 65 .40 2 . 8 34.3 83.6 97.4 116.5 181.3 254.4 273.5 328.4 375 .1 438.3 468 .4 492 .0 505,6 555.3 574.0 610.8 692.0 735.3 758.5 60.03 54.20 50.43 49.15 50.73 47.45 45 . 55 46.21 46.37 42 .25 42.51 48.69 47.99 50.32 48.65 48.23 45.24 50.49 55.05 70,29 18,3 47,4 91.9 108.3 120.4 189.0 256 , 0 287.3 353.1 393.7 441.5 476.1 492.6 524.6 553.1 574.5 623.9 695.9 735.4 773.3 NC XI GR GR GR GR GR GR GR GR GR GR GR GR GR GR .03 570 . 0 86.1 85 .2 84.3 62 . 8 54 ,3 55.3 52 .7 51.3 49.9 48 . 9 45.5 47.8 51.0 47 . 8 .03 100 . 0 . 0 4.6 14 .9 51.7 37 .1 150.5 193 .0 213 .5 264.7 315.4 351.5 475.7 510.8 558.3 .03 347.6 85 . 53 85 , 50 75 , 05 57,02 54.88. 54 . 35 52 . 07 51.09 49. 74 48 .15 45,54 48.69 51. 04 47 . 82 475.7 1. 0 5.6 28 .7 54.5 105 . 0 163 .3 197.6 220.7 272.4 337.9 457.4 480,2 513 . 8 558.3 271.0 85.36 35.77 71.05 53 .42 55.01 54.31 51.99 50.44 49.55 47,69 45.54 50.39 50.16 47.80 198.7 1,5 7.7 35.9 72.2 112 ,2 164 . 9 200.2 235 . 0 286.7 347.6 469.5 490,5 533 ,5 558 . 3 193 . 5 34,33 35 . 90 65.43 54 . 00 54,83 54 ,35 51.80 50,31 49.09 47 .10 45.54 50.43 49.75 47 . 40 2 . 0 8.7 46.1 79.4 133.6 177.7 204.3 243 .2 305.1 358.9 471,5 495.1 538.1 567.9 84 .45 84.60 63.56 54.35 55.05 53.80 51.44 50.29 49.00 45.88 45 . 99 50.77 49.49 47.08 3.0 13 , 9 50.2 83.5 142.9 134.4 209.9 245.3 309.8 360,9 472.0 502.7 541.6 576. 0 13:50:19 27 GR GR GR GR GR GR 47.4 49.2 47.3 46.9 50.5 58 . 8 590.7 630.6 570.1 749.0 819.2 849.6 43.25 43.36 47 . 01 47.00 53.02 58.78 597.3 633.7 691.3 778.3 330.4 351,6 49.05 48.19 46.93 47 .85 53.01 58.95 605.9 647.8 697.4 800.5 830.9 855.7 49.62 47 . 55 46 . 30 48 . 10 52.90 63.91 612 ,4 653.4 703 . 9 304 .1 836.9 365.3 49.39 47.55 46.81 48.94 55.94 57.14 627.6 660. 0 742 . 9 810.1 845.6 873.4 ET NH XI GR GR GR . GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR 4 530 . 0 71.6 71.4 60.6 55.9 53 .8 53.3 51.3 51.4 S3 .4 51.7 47.1 49.2 50.3 49.2 49.2 49.0 49.2 52.0 62.9 9.1 .03 94.0 . 0 28 . 3 54.9 72.7 109.7 131.1 195.1 247 . 7 233 .5 311.8 334 .1 342.9 370.5 434. 0 498 . 6 545.8 569. 0 626.5 630.3 312 .4 330.3 71.51 71.54 56.97 55 .25 53 .77 53.03 51.75 51.45 53 .34 51.73 47.03 49.34 50.18 49.17 49.23 49.11 49.15 61.29 66.48 , 015 342.9 4.9 34.8 61,9 33,1 110.3 147.4 203 .8 258 .1 287.4 311.8 333.4 343 .4 333 .5 435.6 507.2 551.3 535.2 553.1 694.9 342.7 279.4 71.36 67.85 56.85 54.87 53.76 52 . 87 51.40 51.46 53 . 04 51.58 47.10 49.68 •50.19 48.98 49. 07 49.21 49. 95 62 , 53 69. 05 . 04 •245.0 16.3 42 ,4 61,9 89.1 110.4 154.9 223.8 263 . 0 296.6 312,4 333.9 345.1 333.4 455.3 517.1 554.5 599.9 571.4 706 . 9 480.7 247 .5 71.40 57.51 54 .46 54.73 53 .72 52 .74 51.39 52 .46 52 .73 49.50 47.38 49.72 50.19 43 . 91 48 .95 49.31 50.01 63.63 69.62 .03 22 .3 43 .4 66,8 91.3 120.1 159.9 224 .4 272 .7 300.9 330.3 339.5 346.1 391.7 472.0 527.9 559.4 603 . 0 575.1 710.1 265 710.1 71.33 61.31 54 , 94 54.63 53 .72 51.94 51.33 53.03 51.77 47.79 49,17 50.03 49.30 48 , 95 43.91 49.26 50.43 63.37 27.7 53 ,2 63 ,4 93.4 120.2 130.4 226.1 279,2 311.3 333 .0 342 .7 354.8 431.3 430.7 541.5 565.3 605.6 676.1 ET NH NH XI GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR 5 565.2 590.0 53 .3 57.5 54.5 49.7 53 .1 59.1 62.5 60.0 57.3 56.3 57.0 57.4 55.5 57.4 58.8 60.0 58.4 57.3 9.1 .03 98.0 . 0 36.4 77.0 99.4 109.9 142 .2 136.4 217,4 244 . 9 310,3 362.5 383.7 395.8 409 . 0 425 . 6 442.9 471 ,0 501,4 94 .2 44.7 53 .19 57.32 54.32 49.67 53 . 61 61.37 62.39 59.76 57.69 56.13 57.30 57.45 55.57 57.95 59.10 59.59 58 .13 57.23 140.0 5.3 44 .7 77.6 103 . 0 112 .4 153 .6 193 .9 219.7 253 . 0 323.6 372,9 385.5 403.3 411.9 429.1 444.6 475.8 503 .3 109.3 255.4 58.13 56.09 52 .70 49.68 55 .80 61.72 62 . 05 59.47 57.68 55.34 57.32 57.49 56 .53 57.99 60.02 59.15 57.75 57.56 251.1 3.3 55.7 92 .1 104.0 122 .4 155.1 193 . 9 223 . 6 253 .6 343 .5 373.4 388.9 403.9 413 .7 438.8 452.7 482 .5 505.5 243 . 9 58.02 55.57 52.70 50.28 58 , 70 61.74 60 . 53 58.43 57.67 55.91 57 . 33 56. 70 56.59 58.05 60.05 58 . 98 57 .49 59.14 16.1 59.3 94 .2 104 .7 140.0 155.7 207.0 239.1 253.6 347.0 374 .0 392 ;4 406.2 414.3 439.5 459.5 433.8 517 . 6 65 343 .5 57.87 54 . 33 51.62 53.03 53.90 52.60 60,40 53.43 57.23 56,94 57.40 56.48 56.94 58.62 60.11 58.62 57.32 60.97 135 . 03 23.4 73 .4 96.2 109.3 141.1 175.4 208.1 239.1 260.5 358 . 6 379.7 393 ,5 407 .4 422 .2 440.6 463.1 491.8 525.0 13:50:19 PAGE 28 GR 52.1 529.1 55.43 538.7 65.31 . 539.9 65.36 541.0 66.39 546.2 GR 68.6 552.0 71.28 558.3 73.95 565.2 13:50:19 PAGE SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST »PROF 1 CRITICAL DEPTH TO BE CALCULATED AT ALL CROSS SECTIONS 1490 NH CARD USED *SECNO 10.000 1553 STARTING NC CARD OMITTED 3280 CROSS SECTION 10.00 EXTENDED 3.37 FEET 3470 ENCROACHMENT STATIONS' 1. 0 427 2 TYPE 1 TARGET= 426 200 10.000 14.13 16.27 13 .49 .00 15.90 .53 .00 .00 13 96 14700.0 954.5 8577.9 5067.5 2! J8 . 1 1232,5 927 ,2 .0 .0 10 43 .00 3.31 7.04 5.47 030 . 040 . 030 . 000 2.09 1 00 .001476 0. 0. 0. 0 14 0 .00 425.20 427 20 FLOW DISTRIBUTION FOR SECNO= 10.00 CWSEL= 16.27 STA= 1. 66. 125. 127. 236. 250 PER Q= 3.2 .3.2 .1 59.0 3.0 AREA= 147.5 136.5 4.0 1232.5 81.8 VEL= 3.2 3.5 2.1 7.0 5.4 DEPTH= 2.3 2.3 2.2 11.3 5.8 273. 292. 5.3 4.9 4.1 128.7 116.1 101.5 6.1 5.7 5.2 5.8 5.9 5.5 311. 328 3.3 87.0 5.5 5.0 356. 392, 4.5 5.5 3.4 127.1 158.7 109.5 5.3 5.1 4.5 4.7 4.4 3.7 422 . STA= 422 . PER Q= .3 AREA= 16.5 VEL= 3.1 DEPTH= 3.0 427 . 14 90 NH CARD USED *SECNO 20.000 1553 STARTING NC CARD OMITTED 32 65 DIVIDED FLOW 3280 CROSS SECTION 20.00 EXTENDED 1.71 FEET 3470 ENCROACHMENT STATIONS* 607.0 TYPE= TARGET= 564,000 24JUL02 13:50:19 30 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 20.000 14.44 16.53 14.43 , 00 17 . 02 .49 .13 . 00 13.40 14700.0 1340.9 8258.3 5100.3 375.3 1295.4 1095.5 5.3 1.0 13.90 .00 3.57 6.38 4.66 .030 . 040 .030 . 000 2.09 43.00 .001381 89, 38 . 87 . 2 9 0 .00 550.70 607.00 FLOW DISTRIBUTION FOR SECNO= 20.00 STA- PER Q= AREA=. VEL=- DEPTH= 43 . 3.2 137.5 3.4 2 . 6 95. 163 3,2 131,5 3.5 1.8 204. 327. 2.7 55.2 3.5 106.1 1295.4 114.3 3.7 6.4 4.5 2.9 • 10.5 3.7 358. 378 3.4 95.2 5,3 4.8 403. 425. 4,4 3.7 3.5 121.9 105.5 108.4 5.3 5.2 4.9 4.9 4.7 4.4 450. 481 4,2 123.7 4.8 4,2 525, 573. 5.4 4.7 175.3 159.2 4.5 4.1 3.9 3.3 STA= 578. PER Q= 1.7 AREA= 76.0 VEL= 3.4 DEPTH= 2.6 607. 14 90 NH CARD USED •SECNO 30.000 1553 STARTING NC CARD OMITTED 3470 ENCROACHMENT STATIONS-120.0 777 .2 TYPE 1 TARGET= 657 200 30.000 14 ,74 16 . 84 14 .24 . 00 17.14 .29 . 12 , 00 12 56 14700.0 1734 .2 6728.6 6187.2 461,2 1356.3 1651.1 12 , 9 2.4 12 97 . 01 3 . 87 4 . 96 3 .75 , 030 .042 . 030 , 000 2.10 120 00 .000862 106 . 109. • 106. 2 10 0 . 00 544.43 764 43 FLOW DISTRIBUTION FOR SECNO= 30.00 CWSEL= 16,34 120. 225. 349. 419. 623 . PER Q= 4 6 4 3 3 2 45 3 4 3 5 3 3 5 3 7 4 2 3 2 3 7 4 4 AREA=. 177 9 163 3 119 4 1355 3 159 0 182 1 125 1 133 2 160 3 126 4 145 3 131 2 VEL-•3 8 3 9 4 0 5 0 4 0 4 3 4 3 4 1 3 9 3 3 3 7 3 6 DEPTH-4 3 4 4 4 5 11 0 4 6 5 1 5 0 4 7 4 3 4 2 4 0 3 9 STA-623. 654. 703 . PER Q= 3 6 3 0 3 0 AREA-152 1 133 5 152 9 VEL-3 4 3 3 2 9 DEPTH-3 6 3 5 2 5 24JUL02 13:50:19 31 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 1490 NH CARD USED •SECNO 40.000 1553 STARTING NC CARD OMITTED 3470 ENCROACHMENT STATIONS-139.0 865.0 TYPE 1 TARGET-• 576.000 40.000 14 .95 16,95 13.51 .00 17.23 ,28 .09 ,00 13 83 14700.0 235,7 6189.5 8274.8 108 .2 1323.4 2119.8 22.3 4 ,1 13 03 . 02 2 .18 4 . 66 3 . 90 .030 .041 . 030 . 000 2 . 00 189 00 .000590 115. lis. 115. 2 14 0 , 00 f 518.50 807 SO FLOW DISTRIBUTION FOR SECNO- 245. 364. 411. 475. 493 . 518 . 574. 616. PER Q= 1 6 42 1 3 5 3 8 .4 1 5 2 4 5 3 4 4 4 4 1 3 7 4 4 AREA-108 2 1323 4 133 1 123 7 129 2 163 4 144 5 110 4 143 0 147 7 145 6 185 2 VEL-2 2 4 7 3 3 4 6 4 7 4 7 4 6 4 5 4 3 4 1 3 8 3 5 DEPTH-1 9 11 3 4 9 6 5 6 9 5 3 5 6 6 4 6 1 5 5 4 9 4 5 STA= 615. • 647. 592, 733. 808 . PER Q= 3 4 5 2 3 7 2 8 AREA-141 0 210 4 153 0 159 7 VEL= 3 5 3 6 3 3 2 5 . . DEPTH-4 5 4 6 4 0 2 3 1490 NH CARD USED •SECNO 50.000 1553 STARTING NC CARD OMITTED 3265 DIVIDED FLOW 34 70 ENCROACHMENT STATIONS-204 . 0 835.0 TYPE 1 TARGET-681 000 50.000 15.04 17 . 09 12 .79 . 00 17,32 ,23 . 09 . 00 15 03 14700 . 0 395 , 5 4889.8 9414.5 172 . 9 1107.7 2558.6 34 .5 6.2 11 50 .03 2.29 4 .41 3 .53 , 030 . 040 . 034 . 000 2 , 05 204 00 ,000588 132. 142 . 144 . 2 14 0 . 00 655.91 885 00 FLOW DISTRIBUTION FOR SECNO-50.00 CWSEL-17.09 13:50:19 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST STA- 204 263 . 365 389 407. 425 . 446. 471. 492. 506 525. 552 . PER Q= 2 7 33 .3 3 9 4 5 4 3 5 7 6 2 5 .1 3.4 4.3 6 1 4 1 AREA-172 9 1107 .7 144 8 141 3 144 8 172 4 192 3 161.6 106,3 151.5 195 7 137 6 VEL-2 3 4 .4 4 0 4 3 4 9 4 8 4 7 4 . 7 4.7 4.5 4 6 4 4 DEPTH-2 7 11 .4 5 1 7 9 3 2 8 1 7 8 7.7 7.6 7.6 7. 4 7 0 STA- 571 594. 631 701 798. 335. PER Q-3 1 3 , 0 4 4 3 6 1 3 AREA-147 4 201 .7 326 1 327 4 117 3 VEL-3 1 2 .2 2 0 1 6 1 6 DEPTH-5 4 5 .5 4 7 3 4 1 4 571. 1490 NH CARD USED •SECNO 60.000 1553 STARTING NC CARD OMITTED 3280 CROSS SECTION 60.00 EXTENDED 10.10 FEET 3495 OVERBANK AREA ASSUMED NON-EFFECTIVE, ELLEA-18.34 ELREA-7.34 50.000 15.21 17.21 13 . 09 . 00 17.41 .21 • .10 00 18 84 14700.0 . 0 4558.8 10141.2 . 0 1203.7 2817.5 50.4 3.3 7 84 . 04 .00 3.79 3 .50 . 000 .036 .033 . 000 2 00 219 34 .000543 172. 173 . 174 , 0 13 0 .00 635 65 855 00 FLOW DISTRIBUTION FOR SECNO-60.00 CWSEL- STA- 219. 370. PER Q= 31.0 4.3 AREA- 1203.7 147.3 VEL- 3.8 4.3 DEPTH- 8.0 9.5 385. 403. 414. 425. 440 5.7 3.6 3.4 4.6 154.3 103,5 93.3 134.1 5.1 5.1 5.1 5.0 9.3 9.3 9.2 9.1 455. 485. 509. 5.0 7.3 4,2 4.0 145.7 231.8 154.5 154,5 5.0 4.6 3.9 3.8 8.9 3 .1 6.3 6.1 535. 560 3.8 143.7 3.7 5.3 601. 5.7 229.0 3.6 5.5 STA- 601. 628. PER Q- 3.5 4.9 AREA- 144.9 198.7 VEL- 3.5 3.5 DEPTH- 5.4 5.5 664. 731. 807. 855. 4.4 3.6 1.1 329.2 307.9 124.2 2.0 1.7 1.3 4.9 4.0 2.6 24JUL02 13:50:19 PAGE SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 1490 NH CARD USED •SECNO 70.000 1553 STARTING NC CARD OMITTED 3255 DIVIDED FLOW 32 8 0 CROSS SECTION 70.00 EXTENDED 4.34 FEET 33 02 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO - 55 OVERBANK AREA ASSUMED NON-EFFECTIVE, ELLEA-18 . 53 ELREA-10.33 70.000 15 .05 17.14 12.55 . 00 17.63 .49 .21 .00 13 53 14700.0 .0 4657,9 10042.1 .0 1249.5 1593.4 67.7 11.5 10 33 .05 ,00 3 .73 6.30 .000 . 083 .036 . 000 2.09 236 61 .002221 208 . 220 . • 220. 2 16 0 .00 441.15 993 65 FLOW DISTRIBUTION FOR SECNO-70. 00 CWSEL-17.14 STA- 237. 275. 355. PER Q- 3.7 23.0 3.1 AREA- 113.2 1136.3 78,5 VEL- 4.8 3.6 5.8 DEPTH- 3.0 12.5 6.5 377. 389. 415, 422. 433. 445. 461. 478. 483. 556. 4-9 11,7 3.2 5.4 5.4 7.1 7.3 3,5 6.7 83.8 193.3 52.0 87.0 89.2 117.9 121.9 78.4 225.2 8.5 8.9 9.1 9.0 3.9 8.9 8.8 6.5 4.4 7.0 7.5 7.6 7,5 7.5 7.4 7.3 7.3 1.3 STA- 666. 690. 920. PER Q- 4.4 4.4 1.2 AREA- 156.5 210.4 99.2 VEL- 4.1 3.1 1.8 DEPTH- 6.6 .9 1.3 994 . 14 90 NH CARD USED •SECNO 30.000 1553 STARTING NC CARD OMITTED 3265 DIVIDED FLOW 3280 CROSS SECTION 80.00 EXTENDED 1.37 FEET 24JUL02 13:50:19 PAGE 34 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 3302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO -1. 61 3495 OVERBANK AREA ASSUMED NON-EFFECTIVE, ELLEA-19.30 ELREA-10.00 80.000 15,33 17.47 13 .04 . 00 17 .73 .25 . 10 .00 19.30 14700.0 .0 2382.3 12317.7 .0 1102.3 2362.7 73,6 12.4 10.00 .06 .00 2.16 4 .30 .000 .099 .033 , 000 2.09 245.65 .000355 70. 75.. 76. 2 13 0 ,00 566.61 993.25 FLOW DISTRIBUTION FOR SECNO-17.47 STA- 247. 339. PER Q- 15.2 3.1 AREA- 1102.8 96.0 VEL- 2.2 4.8 DEPTH- 11.9 6.2 3. 370. 412 3.7 3.0 113.4 100.9 4.6 4.4 7.7 2.4 423. 453. 474. 662. 580. 712. 742. 787. 3.2 8.4 5.5 7.6 4.4 7.9 7.1 9.3 83.6 223.0 150.4 262.2 124.9 220.7 201.7 279.5 5.7 5.5 5.4 4.3 5.2 5.3 5.2 4.9 7.7 7.5 7.2 1.4 6.8 6.9 6.8 6.2 STA- 787. PER Q- 4.0 AREA- 129.2 VEL- DEPTH- 311. 833. 885 4.2 4.0 143.0 235.0 4.5 .5,5 4 .4 5.2 2.5 5 . 0 924. 960. 3.4 3.2 1.6 197.7 184.5 111.7 2.5 2.5 2.2 5.0 5.2 3.4 993 . 1490 NH CARD USED •SECNO 90.000 1553 STARTING NC CARD OMITTED 3265 DIVIDED FLOW 90.000 15.61 17.70 12 . 62 .00 17.39 . 19 .15 .00 16 69 14700.0 52.1 3227.8 11420.1 48.5 1113.2 3113.2 93 .1 15.3 11 45 . 08 1.07 2 .89 3.55 . 030 .070 .039 .000 2.09 101 74 .000752 220. 207 . 205 . 2 13 0 .00 659.84 997 91 FLOW DISTRIBUTION FOR SECNO-90.00 CWSEL- 24JUL02 13:50 : 19 PAGE SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST STA- 102 176 257 332 342 . 372 . 400. 591. 617. 646 632 . 730. 755 PER Q-4 22 . 0 4 1 3 7 11 5 8 6 7 0 5,1 5.1 4.1 7 5 3 .7 AREA-43 5 1118.2 171 9 91 5 280 0 252 8 223 9 160.5 171.3 222.1 362 4 182 .3 . VEL-1 1 2.9 3 5 6 0 6 1 5 0 4 6 4.7 4.4 2.7 3 0 3 .0 DEPTH-7 12.4 2 6 9 2 9 5 8 9 1 2 6.3 5.3 6.3 7 4 7 .4 STA- 755 777 812 844 900. 998 . PER Q= 3 3 5 .1 3 1 3 5 2 3 AREA-161 1 250.2 178 4 240 3 169 0 VEL-3 0 3,0 .2 5 2 1 2 0 DEPTH-7 3 7.2 5 5 4 3 1 7 35 1490 NH CARD USED •SECNO 100.000 1553 STARTING NC CARD OMITTED 3265 DIVIDED FLOW 100.000 15 .53 17.83 12.35 .00 17.96 .12 .05 .00 13 03 14700.0 825.2 2343.2 11531.5 300 . 8 999.4 4005.6 105.8 17.2 11 34 . 09 2.74 2.34 2 .88 . 030 .070 .039 .000 2.25 10 24 .000431 126 . 113 . 115 . 2 22 0 .00 755.36 872 60 FLOW DISTRIBUTION FOR SECNO-100.00 STA- 10. 59. 32. 157. 248. PER Q= 3.5 2.1 15.9 8.6 5.7 AREA- 193.7 107.1 999.4 328.2 179.5 VEL- 2.7 2.9 2.3 3.8 4.7 DEPTH- 4.0 4.7 13.3 3.6 9.3 266. 343. 353. 333. 409 4.9 5.3 6.7 5.2 219.0 196.0 220.4 181.1 3.3 4.7 4.5 4.2 2.9 9.7 9.0 8.3 440. 475. 5.7 3.7 4.7 213.6 218.7 292.3 3.8 2.5 2.3 7.2 6.2 7.6 513 . 513. 593. 644 . 689. 719. 758 . 873 . PER Q= 4 1 3 1 4 4 4 4 3 1 3 4 3 3 1 2 AREA-260 1 243 5 319 5 300 7 203 7 265 1 279 5 79 6 VEL-2 3 1 9 2 0 2 1 2 2 1 9 1 7 2 3 DEPTH-7 6 5 4 6 2 5 7 7 0 5 3 4 8 1 7 1490 NH CARD USED •SECNO 110.000 24JUL02 PAGE SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK Q QLOB QCH QROB ALOB ACH AROB VOL TWA . R-BANK TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 1553 STARTING NC CARD OMITTED 110.000 15.70 17 . 90 11,89 ,00 18 . 00 . 10 .04 .00 12.05 14700.0 479.1 2062.7 12158.2 207.7 987,1 4757.1 120.5 19.2 10.63 .10 2.31 2.09 2.56 .034 .070 .040 .000 2 .20 2.38 .000325 118 . 114. 114. 0 11 0 .00 310.55 812.93 FLOW DISTRIBUTION FOR SECNO-CWSEL- STA-2. 44 . 47. 120. 143 . 153 . 177. 191. 211. 229. 256. 276. PER Q-3 1 2 14 0 6 1 4 5 3 9 3 7 5 3 4 9 7 3 5 0 4 0 AREA-185 1 21 6 987 1 246 2 156 1 139 2 134 9 192 3 178 2 262 7 185 3 313 0 VEL-2 4 1 2 2 1 3 7 4 3 4 1 4 1 4 0 4 0 4 1 4 0 1 9 1 DEPTH-4 5 5 8 13 6 8 9 10 5 9 9 9 3 9 6 9 5 9 8 9 5 6 7 1 STA-322. 351. 389. 441. 481. 533 . 579. 624. 666. 721. 813 . i PER Q-3 4 4 3 4 8 3 3 5 1 4 5 4 2 3 4 3 2 1 8 AREA-233 2 303 4 364 7 253 5 373 4 333 1 319 1 269 5 290 2 193 7 j- VEL-2 1 2 1 1 9 1 8 2 0 2 0 1 9 1 8 1 6 1 4 1 DEPTH-3 1 7 9 7 1 5 6 7 2 7 3 7 0 6 5 5 3 2 1 322 . 1490 NH CARD USED •SECNO 120.000 1553 STARTING NC CARD OMITTED 120.000 15.66 17.93 13.02 .00 18.07 .13 .07 .00 11.77 14700.0 345.0 2110.9 12244.0 146.3 866,4 4070.9 142.5 22.3 10.78 ,12 2.36 2.44 3.01 .035 .070 .040 .000 2.27 22.55 .000500 183. 130. 171. 2 13 0 .00 742.09 764.65 FLOW DISTRIBUTION FOR SECNO-17.93 STA- 23. 60. 131. 154. 169. 195. PER Q- 2.3 14,4 4.7 3,3 3.7 3.0 AREA- 145.3 866.4 168.4 112.3 210.6 155.0 VEL- 2.4 2.4 4.1 4.3 2.6 2.7 DEPTH- 3.9 12.3 7.2 7.6 8.0 8.4 215. 237. 266. 319. 367, 3.2 3.4 5.3 5.4 4.3 179.0 205.4 343.6 334.8 255.9 2.6 2.4 2.3 2.4 2.5 3.0 7.2 6.5 6.3 7.4 402. 441. 4.3 285.7 2.5 7.3 STA- 441. 465. 491. PER Q- 3.0 4.5 6.2 AREA- 176.9 206.1 213.2 VEL- 2.5 3.2 4.2 DEPTH- 7.5 7.7 7.5 520. 541. 561. 4.2 3.8 3.2 149.1 139.1 124.2 4.1 4.0 3.3 7,1 6.8 6.4 580. 603 3.5 139.5 3.7 6.2 627. 661. 710. 765. 3.5 3.5 4.5 2.3 143.3 165.7 218.3 133.2 3.6 3.2 3.0 2.5 5.9 4.8 4.5 2.4 24JUL02 13:50:19 PAGE 37 SECNO DEPTH . CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 1490 NH CARD USED •SECNO 130.000 1553 STARTING NC CARD OMITTED 130.000 15.73 18.00 12.79 .00 18.11 .11 14700.0 343.3 2552.2 11799.0 184.7 984.8 4312.5 .13 1.89 2.59 2.74 .030 .050 .033 .000284 135. 130. 127. 1 17 0 .05 .00 14 00 158 . 0 24.6 11 36 . 000 2 .27 24 01 .00 840.52 364 53 FLOW DISTRIBUTION FOR SECNO-130.00 CWSEL- 81. 159. 185. 215. 257 . 236 . 356 . 372 , j PER Q= 2 4 17 4 3 5 4 6 3 2 3 1 3 1 4 3 3 4 3 3 6 3 3 6 I . AREA-184 7 984 8 174 3 216 0 133 5 214 3 223 2 323 7 237 7 139 7 273 .4 159 1 VEL-1 9 2 6 2 9 3 1 3 4 2 1 2 0 2 0 2 1 3 4 3 4 3 3 1 DEPTH-3 2 12 7 5 5 7 1 3 1 8 7 8 1 7 8 3 4 8 4 3 1 7 9 STA-426, 447 . 474 . 499. 529. 562 . 589. 513 . 642. 671 . 700 . 733. PER Q= 3 5 3 7 3 3 4 0 4 3 4 0 3 4 4 0 3 4 3 6 3 2 1 6 j AREA-153 7 182 0 165 7 201 5 215 1 189 3 162 7 199 6 177 8 185 3 179 4 183 5 VEL-3 2 3 0 2 9 3 0 2 9 3 1 3 0 3 0 2 8 2 9 2 6 1 2 DEPTH-7 5 6 8 6 6 6 6 5 6 7 0 7 0 6 7 6 3 5 3 5 5 1 4 365 . 1490 NH CARD USED •SECNO 140.000 1553 STARTING NC CARD OMITTED 140.000 11.98 13.08 12.83 ,00 13.17 .09, 14700.0 152.5 9987,5 4560.0 146.3 4120.5 1325.0 .15 1.04 2.42 2.50 .047 ,032 .030 .000189 280. 274. 250. 2 12 0 . 06 . 00 11 10 192.3 29.9 9 63 .000 6.10 42 20 .00 920.64 962 85 FLOW DISTRIBUTION FOR SECNO-13 . 08 STA- 42. PER Q- 1.0 AREA- 146.2 VEL- 1.0 DEPTH- 2.8 95. 154. 550. 8.0 60.0 3.1 503.7 3511.3 151,0 1.9 2.5 2.8 10,4 7.1 8.3 669. 696. 733. 4.0 5.4 4.1 215.3 294.8 222.8 2.7 2.7 2.7 8.1 7.9 7.8 762. 803 5.5 309.5 2.6 7.5 841. 894, 4.6 3.8 258.4 270.3 2.5 2,0 7 , 1 5.1 ,6 32.3 1,0 1.2 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB • VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 1490 NH CARD USED •SECNO 150,000 1553 STARTING NC CARD OMITTED 150.000 11,41 18.10 13.12 ,00 18.20 .10 14700.0 585.5 10916.5 3198.0 262.7 4429.3 1213.8 .17 2.23 2.46 2.62 .030 .031 .030 .000219 134. 146. 90. 0 11 0 .03 . 00 13 99 210.9 32.7 9 91 .000 6.69 12 28 .00 974.03 986 31 FLOW DISTRIBUTION FOR SECNO-150.00 CWSEL-13.10 STA- PER Q- AREA- VEL- DEPTH- 51 . 3.1 193.4 2.3 5 .1 64.2 1.9 4.3 66. 753 74 .3 4429.3 2.5 6.4 820. 846. 920. 936. 9.2 450.9 2 . 9 8.1 3.3 194 .3 2 . 9 7.7 4.3 231.8 2.7 7.1 3.5 225.0 2.3 5.4 1.0 105.8 1.4 1.6 •SECNO 160.000 3302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO - 1.41 160.000 11,39 18 .16 ,12 .51 .00 18.22 .06 .02 .00 11 28 14700.0 935,2 11739.3 2025.5 557.7 5932 .7 1161.0 232.5 36.0 10 00 . 19 1.68 1.96 1.74 .030 . 030 .030 .000 6 .27 24 51 .000110 •151. 147. 95. 2 11 0 .00 1142.50 1167 01 FLOW DISTRIBUTION FOR SECNO-160.00 CWSEL-13.16 STA- 25. PER Q= 4.1 AREA- 376.5 VEL- 1.5 DEPTH- 5.1 98. 125. 938. 979. 1 2.2 79.9 4.5 3.4 131.2 5982.7 319.8 253.6 1167. 1.8 6.5 2.0 7.4 2 .1 7.9 1. 9 7.2 3.4 295.7 1.7 5.7 2.5 286.9 1.3 2.3 •SECNO 170.000 3265 DIVIDED FLOW 170.000 14700.0 .22 .000171 11.97 2251.5 2.16 251. 18.19 10569.7 2.04 203 . 13 . 00 1873.8 1.87 215 . .00 1043.2 .030 1 18.25 5136.2 .030 11 .06 1002.9 . 030 0 .03 263.5 .000 .00 .00 42.3 6.22 1442.98 8.51 10.39 27.45 1530.38 13:50:19 39 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST FLOW DISTRIBUTION FOR SECNO-CWSEL- 297. 332. 365. 381. 1308. 1431. 1503 . 1530. PER Q-3 5 4 2 4 8 2 3 71 9 3 2 5 1 3 2 3 AREA-378 1 252 2 266 7 146 1 5186 2 205 0 467 3 286 5 44 1 VEL-1 4 2 4 2 7 2 8 2 0 2 3 1 9 1 6 1 0 DEPTH-1 4 7 2 3 3 9 1 5 5 6 6 5 1 4 0 1 5 1490 NH CARD USED •SECNO 130.000 180,000 12.13 18,22 13,56 .00 18.27 ,06 14700.0 2016.1 11930.4 753,5 1524.0 5779.7 584.5 .24 1.32 2.06 1.29 .039 .031 .030 .000181 145. 145. 100. 1 14 0 . 02 292 .8 .000 .00 .00 47.1 6.09 1599.05 12 .81 12 .70 145.53 1744.53 FLOW DISTRIBUTION FOR SECNO-180.00 CWSEL-18.22 STA- 145. PER Q- 4.5 AREA- 447.5 VEL- 1. 5 DEPTH- 3 . 0 295. 378. 4.1 3.7 347.7 512.9 1.7 4.2 1.1 4.8 435. 529 1.4 21S.8 1.0 4.9 1516. 1732. 1745. 81.2 5.0 .1 5779.7 570.5 14.0 2.1 1.3 .3 5.9 2.5 1.1 1490 NH CARD USED •SECNO 190.000 3265 DIVIDED FLOW 3302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO . 61 190.000 11.79 18.19 15.34 .00 13.31 .12 .04 14700.0 2253.1 1833.0 10553.9 1172.5 616.8 3667.5 312.7 .26 1.92 3.06 2,88 .048 .043 .030 .000 .000494 130. 130. 130. 2 16 0 .00 .00 51.7 6.40 1457.19 14.10 12.00 159.99 1528.37 FLOW DISTRIBUTION FOR SECNO- 190.00 CWSEL-18.19 24JUL02 13:50:19 PAGE 40 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST STA- 160 450 498 566 613 676. 705. 743. 778. 834 917. 961, 1023 PER Q-5 4 3.1 3 6 2 3 12 8 3 2 4 6 5 4 15 7 4.1 3 9 3 7 AREA-357 7 266.3 330 5 217 8 616 3 145 0 200 2 215 0 635 6 173.9 190 3 217 3 VEL-2 6 1.7 1 6 1 5 3 1 3 2 3 3 3 7 3 6 3,4 3 0 2 5 DEPTH-1 2 5.5 4 9 4 5 9 7 5 0 5 3 5 1 6 0 5.4 4 4 3 5 STA- 1023 1113 1193 1257 1369 1450 . 1485 . 1577 . 1628 . PER Q-6 6 3,9 3 4 4 5 4 5 3 0 4 7 7 AREA-352 3 244 ,2 208 1 308 2 269 7 152 5 287 3 53 1 VEL-2 7 2 .3 2 4 2 2 2 5 2 9 2 4 1 5 DEPTH-3 9 3.0 3 3 2 8 3 3 4 4 3 1 1 2 •SECNO 200.000 200.000 11.49 18.28 14.72 .00 18.37 .09 .05 .00 13.70 14700.0 5155.4 1517.6 8017.0 2043.5 636.4 3438.9 333.8 56.8 11.04 .27 2.53 2.38 2.33 .030 .045 .030 .000 6.79 302.04 .000290 150. 150. 162. 2 13 0 .00 1353.23 1660.27 FLOW DISTRIBUTION FOR SECNO-200.00 STA- 302. 390. 644. 721. 790. 813. 899. 934. 995. 1108. 1158. 1278. 1 PER Q= 3.1 25.3 5.8 10.3 3.3 9.9 3.3 5.5 13.9 3.2 4.1 3.2 AREA- 245.6 1433.6 353.3 636.4 158.9 520.9 186.6 319.0 710.1 211.0 340.3 326.3 VEL- 1.9 2.7 2.4 2.4 3.1 2.8 2.6 2.5 2,9 2,2 1.8 1.5 DEPTH- 2.8 5.7 4.6 9.3 6.9 5,0 5.4 5.2 6.3 4,2 2.8 2.2 STA-1424. 1562 . 1560. PER Q= 3 3 3 5 9 AREA-341 8 239 7 83 7 VEL-1 5 2 1 1 6 DEPTH-2 5 4 0 2 2 •SECNO 210.000 210.000 11.03 18.31 15.12 .00 13.44 .13 14700.0 6007.3 2017.8 5674.8 1849.9 395.4 2456.5 .29 3.25 2.25 2.72 .030 .045 .030 .000469 168. 177. 199. 2 18 0 . 07 .00 15 73 357.8 62,5 15 85 .000 7.28 316 61 .00 1290.74 1507 35 13:50:19 PAGE SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST FLOW DISTRIBUTION FOR SECNO-210.00 CWSEL-18.31 STA- 317. 404. 547. 633. 675. 717. 874. PER Q- 3.1 21.1 12.3 3.5 1.0 13.7 3.4 AREA- 207.8 368.6 511.5 179.8 32.2 895.4 253.1 VEL- 2.2 3.6 3.5 2.3 1.7 2.3 1.9 DEPTH- 2.4 5.1 6.0 4.2 2.0 5.7 2.2 1048 . 1091. 1192. 1237 . 3.3 190 .5 2.5 3.5 3 . 9 196.0 2.9 4.5 14.7 603.3 3.6 6 . 0 5 . 9 253 .2 3.4 5.7 7.1 354.3 2.9 4.4 1384 , 1607. PER Q-3 1 3 3 3 AREA-198 5 350 5 31 9 VEL-2 3 1 6 1 2 DEPTH-3 1 1 8 1 1 •SECNO 220.000 220.000 10.34 13.39 15.22 .00 18.52 .13 14700.0 6600.5 1737.2 6362.3 2104.1 655.2 2394.4 •31 3.14 2.61 2.66 .030 .045 .030 .000432 170. 181. 190. 1 18 0 .08 379.4 .000 .00 .00 67.9 8.05 1281.03 13 .48 15.90 231.44 1562.47 FLOW DISTRIBUTION FOR SECNO-220.00 CWSEL-18.39 231. 408 . 738 . 839. 982 . 1036, 1148, 1209. PER Q-3 1 37 6 3 4 3 11 8 4 5 3 5 4 3 3 3 9 0 9 0 3 7 AREA-246 2 1501 7 208 5 47 6 665 2 233 5 208 5 230 0 183 5 396 0 380 8 182 4 VEL-1 3 3 5 2 4 2 4 2 5 2 3 2 5 2 7 2 6 3 3 3 5 3 0 DEPTH-1 9 5 1 3 1 3 7 7 6 3 3 3 7 4 3 4 1 5 9 6 2 4 8 STA- 1247. 1362. 1 PER Q= 4.4 1,7 AREA- 311.0 213.5 VEL- 2.1 1.1 DEPTH- 2.7 1.1 •SECNO 230.000 230.000 10.21 18.40 16.34 .00 18.61 .22 14700.0 7355.6 2478.3 4365.5 1741.0 704.8 1650.1 .32 4.22 3.52 2.95 .030 .045 .030 .000835 160. 164. 167. 2 14 0 . 10 396.8 . 000 . 00 .00 72.5 8.19 1152.74 13 .53 15.75 298.50 1451.23 24JUL02 13:50:19 PAGE 42 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK TIME VLOB VCH VROB XNL , XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST FLOW DISTRIBUTION FOR SECNO-230.00 CWSEL-18.40 STA- PER Q- AREA- VEL- DEPTH- 293. 409. 443. 541. 611. 534. 712, 3.4 3.9 20.5 14.5 3.9 3.1 201.7 147.7 613.1 436.3 127.1 174.5 2.5 3.9 4.9 4.9 4.5 2.6 1.8 4.3 6.3 6.3 5.5 2.2 721. 319. 896. 946. 1026. 1 .9 15.9 3.7 4.4 3.6 3.2 35.5 704.3 195.4 137.4 195.8 166.5 3.5 3.5 2.8 3,5 2.7 2.3 4.0 7.2 2.6 3.7 2.4 2.7 1089. 1153. 1233 . 1451. PER Q-3 7 7 3 5 6 1 8 AREA-136 5 305 1 254 0 158 3 VEL-2 9 3 5 3 2 1 6 DEPTH-2 9 3 8 3 4 1 1 •SECNO 240.000 240.000 . 9.70 13.52 17.13 .00 18.83 .31 .21 .00 14.00 14700.0 3329.9 4593.3 5275.3 923.6 888.9 1555.1 412.9 77.5 14.60 .33 4.12 5.17 4.04 .030 .045 .030 .000 3.82 310.41 .001549 173. 185. 195. 0 14 0 .00 1141.65 1452.05 FLOW DISTRIBUTION FOR SECNO-240.00 CWSEL-18.52 STA-310. 519. 670. 832 . 945. 1100. 1347. PER Q= 5 6 9 1 4 2 5 2 1 9 31 2 6 4 13 9 5 6 3 8 4 6 5 3 AREA-228 0 308 2 137 1 153 1 52 2 883 9 188 5 421 7 188 7 178 4 234 1 186 4 VEL-3 6 4 4 3 3 5 0 5 4 5 2 5 0 4 8 4 4 3 1 2 9 4 2 DEPTH-2 0 3 2 1 9 3 9 4 4 7 3 3 9 3 7 3 2 1 9 1 3 3 0 1347. PER Q= 3 0 .0 AREA-155 8 1.4 VEL-2 9 .6 DEPTH-1 6 . 1 •SECNO 250.000 3265 DIVIDED FLOW 24JUL02 13:50:19 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 33 02 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO -.67 250.000 9.66 18.48 17.82 .00 19.10 .62 .27 .00 12.75 14700.0 4534.3 4714.7 5451.0 789.8 633.1 956.3 420.5 30.1 14 . 94 .34 5.74 7.45 5.70 , 030 .045 .030 .000 8.82 277.02 .003625 119. 112. 117. 2 10 0 .00 839.70 1308.83 FLOW DISTRIBUTION FOR SECNO-250.00 CWSEL- STA-277 , 394. 603 . 625. 669. 772 . 802 . 832. PER Q-5 3 3 0 3 1 3 9 6 0 3 9 7 32 1 3 3 5 2 3 6 3 1 AREA-173 0 235 9 100 7 81 9 114 1 58 1 11 2 633 1 67 2 109 4 86 2 85 8 VEL-4 3 5 0 4 5 7 0 7 7 8 5 9 4 7 4 7 2 7 0 6 1 5 3 DEPTH-1 5 2 1 1 0 3 6 4 2 4 8 5 6 7 5 3 7 3 6 2 9 2 3 rA-369. 898 . 947. 99 9. 1065 1301 1309 PER Q-3 2 3 9 5 9 5 9 3 0 1 AREA-79 3 110 7 145 4 160 2 107 0 4 2 VEL-5 9 5 1 5 0 5 4 4 2 1 9 DEPTH-2 8 2 2 2 8 2 4 5 5 •SECNO 260.000 3265 DIVIDED FLOW 3301 HV CHANGED MORE THAN HVINS 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 260.000 9.56 19.10 19.10 .00 20.35 1.25 .45 .00 13.28 14700.0 4027.9 5755.3 4916.3 563.1 541.1 603.7 425.0 81.7 13.93 .34 7.15 10.64 3.14 .030 .045 .030 .000 9.54 379.23 .006257 93. 95. 98. 0 6 0 .00 615.39 1141.77 FLOW DISTRIBUTION FOR SECNO-260.00 19.10 PAGE SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST STA- 379 515 606 639 659. 571. 734. 766. 303. 334 1070. 1096. 1129 PER Q-5.0 5.3 5 2 5 7 5 2 39 2 9 8 10.1 3.7 3.3 3 2 3 2 AREA-159.1 160 . 8 94 3 33 5 54 3 541 1 137 9 149.3 74.8 98.1 55. 1 70 5 VEL-4 . 5 5.7 3 0 10 1 11 9 10 5 10 5 9.9 7.2 5.0 7. 2 6 7 DEPTH-1.2 1. 8 2 9 4 1 5 3 8 5 4 4 4 . 0 2.5 .4 2. 5 2 1 STA- 112 9. PER Q- .2 AREA- 7 . 6 VEL- 3 . 1 DEPTH- .6 1142 . 1490 NH CARD USED •SECNO 270.000 3470 ENCROACHMENT STATIONS- 270.000 10.66 19.95 14700.0 1496.8 7314.2 .34 4.71 8.72 .005237 76. 81. 1.0 113 8.8 TYPE- 1 TARGET- 19.50 .00 20.81 .85 5833.9 317.5 339.1 943.3 5.21 .030 .045 .035 84. 3 9 0 1137.800 .46 .00 428.5 82.9 .000 9.29 .00 692.53 13 .23 15.85 405.62 1099.21 FLOW DISTRIBUTION FOR SECNO-270.00 19.95 STA- 407. 520. 526. 745. 760. 775. 835. 873. PER Q- 5.1 5.1 49.8 3.3 3.0 4.4 3.7 4.6 AREA- 159.1 158.4 839.1 55.3 53.9 129.9 104.3 151.8 VEL- 4.7 4.7 3.7 8.7 8.3 5.0 5.2 4.5 DEPTH- 1.4 1.5 7.0 3.8 3.5 2.2 2.7 2.2 943. 979 4.9 119.7 5.0 3.4 999. 1013. 1 3.6 3.9 3.6 77.7 69.1 58.8 6.7 8.3 7.6 4.0 3.5 3.1 STA- 1040. 1075. 1 PER Q- 4.2 .7 AREA- 91.1 25.6 VEL- 6.8 4.2 DEPTH- 2.6 1.1 1490 NH CARD USED •SECNO 280.000 3280 CROSS SECTION 230.00 EXTENDED 24JUL02 45 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 33 01 HV CHANGED MORE THAN HVINS 3302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO 2 .17 3470 ENCROACHMENT STATIONS- 230.000 11.30 20.60 14700.0 2040.8 4207.1 .35 3.31 4.46 .001109 51. 51. 1.0 1108.4 TYPE- 1 TARGET- 17.55 .00 20.92 .31 8452.0 615.5 942.9 1777.5 4.75 .030 .045 .033 51. 2 13 0 1107.400 .11 ,00 431.7 83.7 .000 9.30 .00 705.91 16.73 15.79 402.48 1103.40 FLOW DISTRIBUTION FOR SECNO-280.00 CWSEL- STA-547 . 746. PER Q-7 1 5 .8 28 5 4 0 AREA-340 7 276 0 942 9 137 7 VEL-3 1 3 6 4 5 4 3 DEPTH-2 4 3 2 3 3 4 1 TA- 1025 1063 1080 lOi i7. PER Q-3 1 5 0 3 9 4 AREA-114 9 59 3 50 6 21 8 VEL-3 9 10 5 11 4 2 5 DEPTH-. 2 6 6 0 6 7 1 0 779. 843 3.3 177.0 2.8 2.3 372 . 5.2 7.2 183.2 224.0 4.2 4.7 6.2 7.4 903. 945. 8.3 5.1 279.3 203.9 4.4 '6.7 4.4 6.7 975. 992. 4.5 136.8 4.9 7.9 1001. 1025. 3.4 74.9 6.7 8 .1 3.1 104.3 4.3 4.4 1490 NH CARD USED •SECNO 290.000 3470 ENCROACHMENT STATIONS- 1.0 290.000 11.39 20.99 18.62 14700.0 4332.0 2994.7 7373.3 .37 3.99 4.01 4,11 .000904 335. 330. 326. 853.3 TYPE- 1 TARGET- .00 21.24 .26 1034.5 747.3 1792.4 .030 .045 .023 2 14 0 352.300 .33 458.0 . 000 .00 .00 39.6 9.60 836.62 17.70 14.64 11, 95 843.58 FLOW DISTRIBUTION FOR SECNO-290.00 20.99 24JUL02 13:50:19 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST STA- 12 82 110 150 175. 2 04 . 230. 264 . 277. 368 389. 419. PER Q-4 1 3.6 5 6 4 1 4 5 3 5 3 2 1 0 20 4 4.5 5 7 7 0 AREA-188 5 128.4 192 9 132 9 148 9 121 0 128 7 43 2 747 3 131.1 173. 2 225 2 VEL-3 2 4.1 4 2 4 5 4 4 4 2 3 6 3 3 4 0 5.1 4. 8 4 5 DEPTH-2 7 4.6 4 8 5 2 5 1 4 8 3 3 3 3 8 2 6.3 5. 3 5 4 STA- 460 517 549 572 509. 656 . 727. 327. 843 . 849 PER Q-7 4 4 . 1 3 0 4 0 3 1 3 4 3 3 3 7 9 AREA-262 8 146.2 108 0 154 2 144 6 179 3 180 1 63 1 19 8 VEL-4 1 4 . 1 4 1 3 8 3 2 2 3 2 7 8 0 6. 4 DEPTH-4 5 4.6 4 6 4 1 3 1 2 5 1 3 4 5 3 . 3 460. •SECNO 300.000 3265 DIVIDED FLOW 3302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO = .53 300.000 14700.0 .39 .003211 10.74 1952.3 5.26 333 . 21. 19 4967.1 7. 05 387. 20.14 7780.5 6.40 391. .00 371.2 .030 2 21.84 704.6 .045 9 .65 1215.5 .030 0 .60 484 .4 . 000 .00 .00 96.4 10.45 688.03 19.20 15.80 21.22 741.46 FLOW DISTRIBUTION FOR SECNO-300.00 21.19 STA- PER Q= AREA- VEL- DEPTH- 71 . 3 . 7 109.0 5 . 0 2.2 3.3 85.2 6.6 3.6 94. 129, 3.7 97.4 5.5 2.8 132. 275. 305. 325. 2.0 33.8 7.8 4.8 8.5 79.5 704.6 140.6 91.1 172.2 3.3 1.5 7.0 7.4 3.2 5.0 7.7 4.6 7.3 4 . 1 366. 394. 420. 464. 498. 4.6 4.0 6.5 4.6 101.4 90.1 150.9 110.7 6.7 6.5 5.4 6.2 3.6 3.5 3.4 3.3 STA- 498. 533. 565. 624. PER Q- 4.9 3.3 3.0 .3 AREA- 116.3 38.3 106.1 47.8 VEL- 6.2 5.6 4.2 2.4 DEPTH- 3.3 2.3 1.3 .4 •SECNO 310.000 13:50:19 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 3265 DIVIDED FLOW 3302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO 310.000 10.60 22.13 19.71 .00 22 .41 .28 .56 00 15 12 14700.0 3400.1 2118.4 9181.5 964.7 470.4 2070.3 508 .3 102 .5 14 94 .41 3 .52 4.50 4.43 .030 .045 .030 .000 11. S3 32 48 .000922 354. 358 . 364 . 2 IS 0 .00 803 . 87 844 05 FLOW DISTRIBUTION FOR SECNO-310.00 CWSEL-22.13 STA- 32. 121. 163. 239. 291. 316. 344. 392. 407. 422. PER Q= 3.6 3.2 3.4 4.'2 3.2 5.6 14.4 3.7 3.6 5.6 AREA- 137.0 133.1 133.4 175.5 114.9 165.5 470.4 100.9 99.9 159.3 VEL- 2.8 3.4 2.7 3.5 4.1 5.0 4.5. 5.4 5.2 5.2 DEPTH- 2.1 3.3 2.4 3.4 4.5 6.0 9.7 6.9 6.5 6.3 463. 494. 3.1 6.0 91.8 181.4 5.0 4.9 6.0 5.8 STA- 494. 516. 548. 586. 620. 654. 679. 708 PER Q= 4.1 5.9 6.4 5.3 5.3 3.4 3.1 AREA- 126.7 181.9 202.1 176.0 173.6 118.3 113.5 VEL- 4.8 4.8 4.6 4.5 4.5 4.2 3.9 DEPTH- 5.7 5.7 5.4 5.1 5.1 4.7 4.1 747. 815. 3.2 3.3 .4 137.8 171.7 30.4 3.5 2.8 1.7 3.5 2.5 1.0 •SECNO 320.000 3265 DIVIDED FLOW 33 01 HV CHANGED MORE THAN HVINS 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 320.000 9.42 21.95 21.95 .00 23.24 1.29 14700.0 156.7 7441.7 7091.6 63.2 754.9 847.3 .42 2.64 9.85 8.36 ,030 .045 .030 .003414 342. 339. 342. 0 10 0 ,71 .00 20 53 523.6 103.3 19 66 . 000 12.53 37 74 .00 .656.74 838 19 PAGE SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST FLOW DISTRIBUTION FOR SECNO-320.00 21.95 STA-344 . 592. 609. 633. 690. 766. 806. 833. PER Q= 1 1 50 6 3 6 3 4 10 2 4 2 5 5 4 7 4 1 7 5 3 3 1 2 AREA-53 2 754 9 78 2 65 0 151 9 59 3 80 1 75 7 73 3 153 1 77 4 33 3 VEL-2 6 9 9 6 8 7 8 9 9 10 4 10 1 9 2 8 2 7 2 7 1 5 1 DEPTH-2 5 9 1 8 2 2 3 2 3 5 3 3 2 9 2 4 2 0 2 0 1 0 •SECNO 330.000 3301 HV CHANGED MORE THAN HVINS 3302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO - 2.25 330.000 14700.0 .44 .001652 10.57 5454.4 4.95 268. 23.59 3233.5 5.44 267. 21.96 6002.0 5.02 268. .00 1102.8 . 030 2 24.09 594.6 . 045 10 .40 1195.4 .030 0 .85 542 . 6 .000 .00 .00 112.4 13.12 693.54 20. 16 18.27 9.29 702.33 FLOW DISTRIBUTION FOR SECNO-330.00 CWSEL-23 .69 STA- PER Q- AREA- VEL- DEPTH- 9. 62. 3.2 3.7 127.2 105.7 3.7 5.1 2.4 4.0 111. 135. 168. 198. 234. 266. 294. 305, 3.2 3.6 4.2 4.0 4.9 5.2 4.0 1.2 22.0 90.5 103.8 123.2 117.6 141.3 141.2 114.0 38.1 594.6 5.2 5.1 5.0 5.0 5.1 5.4 5.2 4.5 5.4 4.1 4.0 3.9 3.8 4.0 4.4 4.1 3.4 3.4 376. 394. 3,5 37.0 5.9 4.9 STA- 3 94. PER Q- 4.3 AREA- 109.4 VEL- DEPTH- 5.8 4.3 417. 435 3.1 33.4 5.5 4.5 484. 541, 7.4 7.1 207.0 214.0 5.3 4.9 4.2 3.8 555. 620. 647. 679. 3.5 5.5 3.0 3.0 ,4 80.3 195.4 94.7 99.3 24.9 6.4 4.2 4.7 4.5 2.3 5.7 3.0 3.5 3.1 1.0 •SECNO 340.000 340.000 10.63 24.08 22.43 .00 24.63 .55 .54 .00 19.83 14700.0 5249.4 3291.2 6159.4 930.2 526.8 1022.9 560.6 116.6 17.34 .45 5.64 6.25 6.02 .030 .045 .030 .000 13.40 35.35 .002093 296. 292. 287. 3 9 0 .00 556.74 592.59 24JUL02 13 :50 19 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST FLOW DISTRIBUTION FOR SECNO-340.00 CWSEL-24 08 PAGE 49 STA- 35. 78. 108. 147. 175. 196. 233. PER Q= 4.3 5.2 5.1 4.1 3.3 5.3 5.3 AREA- 124.4 128.6 157.2 106.4 84.9 143.4 136.5 VEL- 5.0 6.0 5.7 5.5 5.7 5.7 5.7 DEPTH- 3.0 4.3 4.0 3.9 4.0 4.0 4.0 273. 339. 356. 1.7 22.4 5.4 4.5 43.7 525.8 104.8 92.4 5.7 6.2 7.6 7.1 4.0 8.6 5.1 5.5 373. 398. 5.1 116.4 5.4 4.7 STA- 3 93. PER Q= 4.1 AREA- 96 .9 VEL- DEPTH- 6.2 4.5 419. 452, 5.5 151.6 6.3 4.5 472. 496. 529. 576. 3.9 4.0 4.0 3.9 .6 92.0 99.3 114.6 129.2 25.5 5.2 5.0 5.2 4.5 3.3 4.5 4.3 3.5 2.8 1.5 593 . •SECNO 350.000 350.000 9.39 24.45 23.53 .00 25.29 .83 14700.0 3748.6 5393.0 5553.4 604.1 708.0 718.1 .46 6.21 7.62 7.74 .030 .045 .030 .003830 223. 235. 252. 2 10 0 .66 572 . 9 .000 . 00 . 00 119.5 14 .56 510.49 19.82 19.39 82.03 592.52 FLOW DISTRIBUTION FOR SECNO-350.00 CWSEL-24 .45 STA- 82. PER Q- 5.2 AREA- 124.3 VEL- 5.1 DEPTH- 2 .5 158. 190. 3.9 3.3 3.2 37.1 91.0 93.1 6.5 6.2 5.0 3.1 2.9 2.0 236. 284. 309. 406. 423. 442. 485. 521. 4.1 5.4 36.7 6.2 3.6 10.0 7.5 4.5 107.5 100.6 708.0 103.9 63.0 182.9 144.1 89.0 5.5 7.9 7.6 3.7 3.5 3.0 7.7 7.4 2.2 4.1 7.3 4.8 4.5 4.2 4.0 3.8 545. STA- •SECNO 360.000 593 . PER Q-4 6 1 4 AREA-95 4 33 9 VEL-7 0 5 4 DEPTH-3 4 2 0 3265 DIVIDED FLOW SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 33 01 HV CHANGED MORE THAN HVINS 50 7135 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 360.000 10.80 25.70 25.70 .00 14700.0 1023.9 8711.0 4950.1 117.3 .47 3.77 11.50 7.56 .030 .007373 293. 305. 322. 0 27.30 757.7 .045 1.60 656.5 .030 0 1.60 .00 21 09 585.5 123.0 20 15 . 000 14 . 90 281 08 .00 457.83 747 25 FLOW DISTRIBUTION FOR SECNO-350.00 CWSEL- STA- 281. 317. 323. 419, PER Q- 4.1 2.9 59.3 AREA- 75.1 42.1 757.7 VEL- 8.0 10.1 11.5 DEPTH- 2.1 3.7 8.3 440. 516 7.0 5.1 89.6 109.8 11.4 6.8 4.4 1.4 578 . 5.0 4.0 110.7 75.0 6.6 7.8 1.3 2.5 608 . 635. 680. 3.3 64 .4 7.5 2.4 4.4 93.1 7.0 2.1 4 .1 87.3 6.9 2.1 26.2 4.4 1.1 1490 NH CARD USED •SECNO 370.000 3255 DIVIDED FLOW 33 01 HV CHANGED MORE THAN HVINS 3302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO 1.89 370.000 14700.0 .49 .002060 12 .10 741.6 6.15 435. 28.30 4196.7 6.72 470. 26 .48 9761.8 6.15 457. .00 120.5 . 030 2 28.92 624.5 . 045 10 .62 1537.9 .030 0 1.63 606.0 . 000 .00 . 00 128.2 16.20 537,76 22.00 21.26 34.57 625.04 FLOW DISTRIBUTION FOR SECNO-370.00 28.30 13:50:19 PAGE 51 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST STA-35. 53 55. 128 141. 190. 229. 269. 303. 320 335. 350, PER Q= 3 . 0 2.0 28 5 4 9 12 7 3 3 9 7 8 .1 4.2 3.3 3 5 3 4 AREA-80.3 40.3 624 5 83 9 267 4 188 5 211 2 175 . 7 91.5 72.3 77. 6 83 9 VEL-5.5 7.4 6 7 3 0 7 0 5 5 5 3 5.8 6.3 6.7 6. 6 5 6 DEPTH-3.5 6.0 9 8 6 7 5 5 4 9 5 2 5.2 5.3 5.1 5. 0 3 8 STA-374. 415. 625. PER Q-3 6 3 0 1 6 AREA-118 3 99 7 107 0 VEL-4 5 4 4 2 2 DEPTH-2 8 2 7 5 1490 NH CARD USED •SECNO 380.000 3255 DIVIDED FLOW 380.000 14700.0 .50 .003239 10.35 1937.3 7.04 265. 23.74 3391.6 7.92 262 . 27 . 82 8371.2 7 .10 249. .00 275.3 .030 3 29.53 491.5 . 045 14 .83 1248.7 .030 0 .55 618.6 .000 • .00 .00 131.3 18 .39 545.32 23.85 22.56 39.47 627.24 FLOW DISTRIBUTION FOR SECNO-330.00 CWSEL-28.74 STA- PER Q- AREA- VEL- DEPTH- 39. 3.7 90.1 6.0 2.9 70. 102 5.3 134.3 7.4 4.2 113. 2.7 26.5 50.9 491.5 7.7 4 . 5 7.9 8.8 169. 179, 4.0 61.2 9.5 6.1 195. 207 5.4 3.8 88.1 64.6 8.9 8.6 5.6 5.3 220. 247 3.7 3.5 64.1 145.2 8.5 8.6 5.2 5.2 270. 299. 6.2 7.2 5.1 110.9 134.1 99.6 8.2 7.9 7.5 4.9 4.6 4.3 STA- 322. 345. 382. 504. 562. PER Q- 4.4 4.8 3.8 3.3 ,3 AREA- 90.7 114.9 146.7 109.3 17.9 VEL- 7.2 5.1 3.8 4.4 2.2 DEPTH- 4.0 3.1 1.2 1.9 .3 •SECNO 390.000 3255 DIVIDED FLOW 24JUL02 13:50 19 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 390.000 9.48 29.64 23.74 .00 30.53 . 94 1.00 .00 24.90 14700.0 4380.8 3553.7 6765.5 593.2 442 .4 851.5 631.0 134.7 25.57 .51 7.32 8.03 7.95 .030 .045 .030 .000 20.16 92.60 .004021 233 . 235 . 268 . 2 12 0 .00 510.42 651.12 FLOW DISTRIBUTION FOR SECNO-390.00 CWSEL-29 64 STA- 93 . 229 258. 276 . 294 . 334. 350. 407. 423. 443 458 . PAGE 531. PER Q- AREA- VEL- DEPTH- 3 3 3 9 3 9 4 2 10 3 4 2 24 2 3 8 5 5 3 9 10 8 8 0 2 9 87 2 71 9 75 2 179 0 71 0 442 4 67 7 92 5 66 9 187 3 137 9 4 3 6 5 7 9 3 2 3 4 3 7 8 0 8 1 8 7 8 6 8 5 8 5 3 3 0 4 0 4 2 4 4 4 6 7 7 4 2 4 5 4 5 4 4 4 5 STA- 531. PER Q= 4.5 AREA- 77.0 VEL- 8 .5 DEPTH- 4.5 565. 583. 4.0 3.0 2.6 70.4 52.3 89.5 8.3 7.2 4.2 4.3 3.5 1.3 •SECNO 400.000 33 01 HV CHANGED MORE THAN HVINS 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 400.000 10.99 33.09 33.09 .00 14700.0 612.3 14087,7 .0 83.3 .51 7.30 14.19 .00 .030 .011078 320. 303. 287. 0 36 . 12 993.0 .045 3.03 . 0 .000 0 1.39 641.3 .000 . 00 .00 137.1 22 ,10 134.40 30.46 35.58 57.70 242.10 FLOW DISTRIBUTION FOR SECNO-400.00 CWSEL-33.09 STA- 58. 57. 79. 86. 83. 89. 90. 92. 93. 106. PER Q- .0 .1 .1 .0 .0 .1 .1 .1 1.0 .5 AREA- 2.7 5.2 5.1 1.2 1.2 1.4 3.0 1.4 20.8 3.5 VEL- 2.3 3.1 4.0 4.8 5.2 5.9 5.1 6.3 7.2 8.0 DEPTH- .3 .5 .7 .9 1.0 1.2 1.3 1.4 1.6 1.9 125. 248. •2.1 95.8 33.2 993.0 9.1 14.2 2.3 8.5 I.., 24JUL02 13:50:19 PAGE 53 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 1490 NH CARD USED •SECNO -180.000 START TRIB COMP -180.000 180.000 18.216 33 01 HV CHANGED MORE THAN HVINS -180.000 12 .13 13 .22 . 00 . 00 13 .27 . 06 . 08 1.31 12 31 14700.0 2017.3 11927.8 754 .9 1526.4 5785.7 585 . 9 656.0 139.9 12 70 .53 1.32 2.06 1.29 .039 .031 .030 . 000 5.09 145 51 .000180 145. 145. 100. 0 0 0 .00 1599.10 1744 61 FLOW DISTRIBUTION FOR SECNO--180.00 18 .22 STA-146. 295 . 378. 529. 1516. 1745 . PER Q-4 5 4 1 3 7 1 4 31 1 5 1 1 AREA-448 5 348 3 513 6 216 1 5785 7 571 3 14 1 VEL-1 5 1 7 1 1 1 0 2 1 1 3 8 DEPTH-3 0 4 2 4 3 4 9 5 9 2 6 1 1 •SECNO 410.000 3255 DIVIDED FLOW 3280 CROSS SECTION 410.00 EXTENDED 3.89 FEET 1 3 302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO -.34 L 410.000 8.90 18.29 13 .68 .00 18.30 . 01 .03 .00 11 10 1900.0 1329.1 91.2 479.7 1953.5 93 . 9 533 .4 631.1 145.3 11 39 f .61 .68 . 97 .75 .030 .030 .030 . 000 9.39 00 ! I.. .000026 205. 207 . 210 . 2 17 0 .00 663.63 712 83 FLOW DISTRIBUTION FOR SECNO- 410.00 18 .29 24JUL02 PAGE SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST STA- 0 26 54 30 . 134 177. 219. 272. 313 . 339 364. 391. PER Q-3 1 3.4 3 2 6 3 4 7 4 3 5 3 4 1 3 8 4.7 5 3 5 0 AREA-102 3 104.8 97 5 199 0 152 6 141 9 177 3 136 3 109 5 122.4 141 4 118 0 VEL-5 .6 5 6 6 6 6 6 7 .7 8 3 DEPTH-3 9 3 . 8 3 8 3 7 3 5 3 4 3 3 3 4 4 2 4,8 5. 4 5 7 STA- 412 435 450 461. 466 477. 501. 515. 529. 547 572. 713 . PER Q= 6 5 4.6 3 4 1 8 4 8 7 7 4 5 4 1 4 1 3.0 1. 9 AREA-143 5 99. 1 71 5 36 1 93 9 ISO 5 94 2 88 7 100 6 92.7 101. 7 VEL-9 . 9 9 9 1 0 9 9 9 8 .6 4 DEPTH-6 2 6.5 5 8 7 1 8 3 5 7 5 7 5 5 5. 4 3.7 7 412. •SECNO 420.000 32 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO -.70 420.000 8 , 04 18.30 15.21 .00 18.31 .01 .01 . 00 12 42 1900.0 1152.9 35.3 561.8 1397.4 69.7 724.6 691.0 143.0 12 44 .67 . 33 1.22 . 91 . 030 . 030 . 030 .000 10.25 65 95 ,000054 178 . 177 . 176. 1 11 0 . 00 657.20 723 15 FLOW DISTRIBUTION FOR SECNO-13.30 STA-56. 135. 166. 196. 226 253. 314. 353 . 396 423 . 446. 471 PER Q= 4 0 4 3 4 .4 4 .9 3 7 3 4 5 4 5 2 3 3 3 5 4 .9 4 5 AREA-122 3 102 5 102 1 108 3 37 4 114 1 129 2 145 2 89 3 79 7 101 .6 34 8 VEL-5 3 8 9 8 6 8 8 3 3 9 1 0 DEPTH-1 8 3 3 3 4 3 6 3 2 1 9 3 3 3 4 3 3 3 5 4 0 4 6 STA-439. 514 . 524 . 540. 551 569. 590. 608 . 626 645. 530. 723 PER Q-7 5 4 5 4 9 3 2 5 2 4 6 3 6 3 4 3 0 4 4 2 5 AREA-130 4 69 7 83 4 55 3 91 5 91 2 74 6 71 6 67 3 107 8 30 8 VEL-1 1 1 2 1 1 1 1 1 1 1 0 9 9 9 3 5 DEPTH-5 2 7 0 5 4 5 1 S 1 4 3 4 0 4 0 3 6 3 1 1 9 •SECNO 430.000 3302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO .29 430.000 3.35 18.25 15.88 .00 13.32 . 08 .02 . 00 15 81 1900.0 1454.6 101.6 343.8 630.7 39.2 195.5 695.5 149.6 15 05 . 69 2.31 2 .59 1.76 .030 .030 . 030 . 000 14.90 150 14 .000629 127. 123 . 129. 2 14 0 . 00 399.01 549 15 PAGE SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST FLOW DISTRIBUTION FOR SECNO-CWSEL- STA- 150. 132 195 208 . 225 254 . 275. 292 . 318. 335 366 388. PER Q- 3 4 3 .5 4 6 6 3 10 7 3 3 6 . 3 9 .4 4.5 9.5 7 8 4 0 AREA- 40 0 30 .6 35 1 47 9 92 1 25 8 51. 2 71 .6 40.2 73.1 60 3 32 5 VEL- 1 6 2 .2 2 4 2 5 2 2 2 3 2. 5 2 .5 2.1 2.3 2 4 2 3 DEPTH- 1 3 2 .4 2 7 2 9 2 4 2 5 2 . 9 2 . 9 2.3 2.6 2 8 2 6 STA- 400. 410 422 443 . 459 483 . 506. 549. PER Q= 2 7 5 .3 4 2 3 2 4 3 3 4 3 . 0 AREA- 22 7 39 .2 40 2 31 2 44 6 37 6 41. 9 VEL- 2 2 2 .6 2 0 1 9 1 3 1 7 1. 4 DEPTH- 2 4 3 . 1 2 0 2 0 1 8 1 5 1. 0 •SECNO 440.000 440.000 3 . 09 13 .35 16.53 00 18 .42 .05 .09 .00 15.31 1900.0 27.3 1793.3 73.9 18 .3 907.5 53.9 699 .4 151.2 15.27 .71 1.49 1.98 1.45 .030 .030 .030 .000 15.27 77 .12 .000406 190 . 189. 154. 2 13 0 .00 372.32 449.44 400. FLOW DISTRIBUTION FOR SECNO-440.00 CWSEL-18.36 STA- PER Q- AREA- VEL- DEPTH- 77. 82 . . 1 3.2 .7 . 7 1.3 15.1 1.5 2.2 89. 415. 94 .4 907.6 2 . 0 2.8 . 1 1.5 1.8 2 . 9 .3 2.8 1.8 2.5 .8 8.5 1.7 2.3 420. 435. 2.3 28.5 1.5 1.9 433. 441. .3 .3 .1 4.1 4.5 4.0 1.3 1.1 .6 1.5 1.2 .5 •SECNO 450.000 3265 DIVIDED FLOW 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 450.000 3.62 13.95 18.95 .00 19.45 .50 1900.0 476.2 571.5 752.3 138.1 83.3 161.2 .73 3.45 7.61 4.57 .030 .030 .030 .007549 250. 277. 259. 0 11 0 .29 . 00 17 83 703 . 7 153 . 5 17 77 .000 15.33 69 21 . 00 403.84 590 69 24JUL02 13:50:19 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST FLOW DISTRIBUTION FOR SECNO-450.00 CWSEL-18.95 STA-69 137 154 185 209 236 268 . 402 439. 457 . 471 4 92 PER Q-4 1 3 0 3 3 4 5 4 9 3 4 1 7 35 3 4 9 3 7 6 1 3 3 AREA-29 2 17 8 16 9 21 5 23 9 19 3 9 5 33 3 20 0 15 6 24 S 11 9 VEL-2 7 3 3 3 7 4 0 3 9 3 3 3 5 7 5 4 7 4 5 4 7 5 2 DEPTH-4 7 3 9 9 5 1 2 4 1 1 1 1 1 2 1 3 STA-501 512 525 554 574 591 PER Q= 5 3 5 3 4 9 5 1 1 1 AREA-17 2 18 5 24 0 21 7 7 8 VEL-5 8 5 5 3 8 4 4 2 6 DEPTH-1 6 1 4 3 1 0 5 501. •SECNO 460.000 3265 DIVIDED FLOW 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 460.000 5.53 21.24 21.24 .00 21.72 .47 i.27' .00 18.21 1900.0 518.5 670.5 711.0 171.2 83.1 195.3 706.1 155.9 18.73 .74 3.03 3.07 3.63 .030 .030 .030 .000 15.61 43.55 .003712 242. 247. 252. 0 15 0 .00 416.39 562.44 FLOW DISTRIBUTION FOR SECNO-21.24 STA-234. 273 . 277. 305. 315. 445. 433. PER Q-3 4 5 4 4 4 5 9 4 5 3 7 35 3 7 3 4 3 3 0 4 0 3 4 AREA-30 3 37 5 38 8 33 6 18 3 12 2 83 1 26 2 13 9 23 7 23 8 19 0 VEL-2 1 2 7 2 1 3 3 4 6 5 8 8 1 5 3 4 3 2 4 3 2 3 4 DEPTH-5 9 5 1 1 1 9 2 7 5 0 2 3 1 7 2 1 1 1 2 STA- 483. 509. 534. 546. PER Q- 6.3 5.4 3.0 .5 AREA- 33.5 , 29.3 15.8 5.6 VEL- 3.6 3.5 3.6 2.0 DEPTH- 1.3 1.2 1.3 .3 562. •SECNO 470.000 3265 DIVIDED FLOW 57 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 470.000 7.51 23.86 23.36 .00 24.36 .50 1.06 1900.0 200.5 833.7 865.8 51.1 108.4 276.2 708.7 .75 3.93 7.59 3.13 .030 .030 .030 .000 .004431 261. 261. 262. 0 . 17 0 .00 .00 158.4 16.35 408.61 21.85 22.30 144.97 511.99 FLOW DISTRIBUTION FOR SECNO-470.00 23.86 STA-145 . 185. 192 . 219. 239. 358 . 373 . 401. 448. PER Q-5 2 3 1 1 3 43 9 4 1 3 5 4 5 3 2 3 9 3 7 4 9 6 5 AREA-34 0 12 3 4 8 103 4 22 0 31 3 33 2 19 3 22 6 21 3 27 4 32 5 VEL-3 4 4 8 5 1 7 7 3 5 2 1 2 6 3 2 3 3 3 3 3 4 3 8 DEPTH-9 1 3 1 9 4 3 1 1 5 , 7 9 1 0 1 0 1 1 1 2 STA- 474. 495. 512. 543. PER Q= 4.9 3.1 3.1 .1 AREA- '25.1 17.7 22.7 1.2 VEL- 3.7 3.4 2.6 1.2 DEPTH- 1.2 1.0 .6 .0 •SECNO 430.000 3301 HV CHANGED MORE THAN HVINS 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 480.000 7.32 26.56 26.66 .00 27.66 1.00 .95 1900.0 248.5 1359.9 281.5 66.3 148.7 85.3 710.7 .76 3.72 9.21 3.30 .030 .030 .030 .000 .003701 235. 235. 237. 0 8 0 .00 .00 159. 9 18.34 150.83 23 .70 24.90 138.37 299.20 FLOW DISTRIBUTION FOR SECNO-430.00 CWSEL-26,55 133 . 176. 139. 233. 264. 230 . 299. PER Q-3 8 • 3 9 5 4 72 1 3 1 5 9 4 1 1 7 AREA-27 4 18 9 20 4 148 7 15 9 34 3 21 3 13 3 VEL-2 7 3 9 5 0 9 2 3 8 3 2 3 6 2 4 DEPTH-7 1 5 2 1 6 4 1 4 1 1 1 3 7 ; • 24JUL02 13 :50 19 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA ( SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST •SECNO 490.000 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 490.000 6 ,52 30.42 30 .42 .00 31.57 1.15 1.26 . 00 26.66 1900.0 687.8 584.9 527.3 91.9 52.7 91.1 712 .2 150.7 27.47 1 .77 7,49 11.09 6.89 .030 .030 .030 .000 23 .90 224.66 \ .007327 249; 243 . 248 . 0 9 0 . 00 112.53 337.29 FLOW DISTRIBUTION FOR SECNO-490.00 STA-258 . 252 . 275. 285 . 307. 319. 331. •SECNO 500.000 3301 HV CHANGED MORE THAN HVINS 337. PER Q-11 9 4 8 19 5 30 8 22 5 7 2 3 1 2 AREA-40 5 11 5 39 8 52 7 54 1 21 9 13 0 2 0 VEL-5 6 7 9 9 3 11 1 7 9 6 3 4 5 2 0 DEPTH-1 2 2 5 3 3 4 9 2 5 1 8 1 1 3 3302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO -1.52 500.000 5 .50 31.39 31.51 .00 32.29 .41 .00 29 75 1900,0 276.1 813 .2 810.7 31.7 126.4 202 .1 713 .4 161.3 29 50 .78 3 .38 6.44 4.01 .030 .030 . 030 .000 25 .39 149 54 .003164 IfcO. 158 . 158 . 3 10 0 .00 241.58 391 12 FLOW DISTRIBUTION FOR SECNO-500.00 31.89 STA- PER Q- AREA- VEL- DEPTH- 209. 227. 234. 5.5 5.3 2.7 42.8 38.9 30.7 12.0 126.4 267 . 284 . 298 . 312 . 334 . 378 . 391. 2.7 .7 3.9 1.7 4.3 1.9 6.4 3.8 8 5 5 4 5 6 9 1 5 5 7 1 1 2 35 3 24 9 25 7 41 1 25 9 39 1 9 2 4 5 4 2 4 2 4 2 4 0 3 5 2 5 2 1 1 8 1 3 1 9 1 7 1 4 7 1490 NH CARD USED •SECNO 510.000 7185 MINIMUM SPECIFIC ENERGY 24JUL02 f 13 :50 19 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BAJJK ELEV I QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV \ TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST j 3720 CRITICAL DEPTH ASSUMED 510.000 6,40 33.67 33.67 . 00 34.24 .57 .68 .00 31.77 i 1900.0 210.9 991.6 697.5 58.2 128.9 202.3 715.1 162.5 31.27 PAGE 59 .79 .004194 3.63 184. 7.69 188 . 3 .45 189. .030 0 .030 6 . 030 0 .000 . 00 27.27 298.39 133 .29 431.63 FLOW DISTRIBUTION FOR SECNO- STA- PER Q= AREA= VEL= DEPTH= 183. 225, 3.6 25.3 2.7 .6 245. 279. 293. 315. 339. 364. 7.5 52.2 7.1 7.9 5.1 3.4 3.1 32.9 128.9 27.5 35.2 27.3 22.1 20.1 4.3 7.7 4.9 4.3 3.6 3.0 2.9 1.6 3.9 1.9 1.5 1.2 .9 .9 410. 441. 474. 482. 3.1 3.3 3.0 .1 20.1 25.3 22.9 1.9 2.9 2.3 2.5 1.2 .9 .8 .7 .2 1490 NH CARD USED •SECNO 520.000 3265 DIVIDED FLOW 7185 MINIMUM SPECIFIC ENERGY 372 0 CRITICAL DEPTH ASSUMED 520.000 5.59 36.25 35.25 .00 36.96 .71 1900.0 422.5 518.5 958.9 78.5 52.4 190.8 .30 5.38 9.89 5.03 .030 .030 .030 .004928 253. 262. 264. 0 9 0 1.19 .00 32 47 717.3 164 .1 31 80 .000 30.65 145 04 . 00 241.58 440 93 FLOW DISTRIBUTION FOR SECNO-520.00 CWSEL-36.25 145. 170. 132 . 193 . 197. 220. 232 . 243 . PER Q-3 6 5 3 7 4 5 9 27 3 13 4 7 9 5 4 7 9 4 4 3 5 3 0 AREA-19 8 20 9 23 5 14 3 52 4 44 1 25 3 19 6 33 0 22 8 20 2 24 3 VEL-3 5 4 9 6 0 7 8 9 9 7 9 5 7 5 2 4 6 3 7 3 3 2 3 DEPTH-8 1 7 2 2 3 4 5 2 3 5 2 1 1 3 1 5 1 1 9 2 1490 NH CARD USED •SECNO 530.000 3265 DIVIDED FLOW ^ 24JUL02 i 13 :50 19 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV i TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 7135 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 530.000 3.23 40.12 40.12 .00 41.06 .93 1.47 .00 38.70 1900.0 11.8 1259.1 629.1 4.2 139.3 147.9 719.3 165.5 37.74 .31 2.79 9.04 4.25 .030 .030 .030 .000 31.89 98.54 .005186 292. 291. 288. 0 11 0 .00 167.99 274.92 FLOW DISTRIBUTION FOR SECNO-530.00 STA- 99. 105. 136. 156. 164. 186. 204. PER Q- .5 66.3 11.5 3.1 5.9 3.7 4.5 AREA- 4.2 139.3 39.0 12.5 30.2 18.9 24.8 VEL- 2.3 9.0 5.6 4.7 4.4 3.7 3.5 DEPTH- .7 4.5 2.0 1.5 1.3 1.1 1.0 230. 254. 3.0 18 . 8 3.1 . 8 275. .3 3.3 1.5 ,2 1490 NH CARD USED •SECNO 540.000 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 540.000 6.09 42.99 1900.0 719.2 517.3 .83 3.70 3.33 .004456 317. 314. 42.99 563.5 3.55 308 . . 00 194.4 .030 0 43 .43 74.1 . 030 17 .49 158.2 .030 0 1.50 721,9 .000 .00 .00 157.4 35.90 381.32 40.69 40.70 190.92 572.24 FLOW DISTRIBUTION FOR SECNO-540.00 42.99 STA- PER Q- AREA- VEL- DEPTH- 191. 229, 4.5 28.5 3.0 253. 258. 298. 3.5 4.8 4.9 3.6 21.3 21.4 28.2 27.0 3.1 4.2 3.3 2.5 .9 1.5 .9 .6 355. 374. 384. 401. 421. 438. 467. 6.0 4.2 6.3 32.S 10.1 3.8 4.8 29.3 16.5 21.7 74.1 33.0 19.3 27.9 3.9 4.3 5.5 8.3 5.1 3.5 3.2 1.3 1.8 2.2 4.5 1.9 1.1 1.0 STA- 467. 483. 502. 542. PER Q- 3.6 3.2 3.4 .8 AREA- 18.9 18.4 25.9 9.4 VEL- 3.6 3.3 2.5 1.6 DEPTH- 1.1 1.0 .7 .3 572 . 24JUL02 PAGE 61 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 1490 NH CARD USED •SECNO 550.000 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 550.000 2.18 44.42 1900.0 164.2 1671.6 .84 4.30 6.85 .007088 237. 231. 44 .42 64.2 1.99 235. . 00 38.2 .030 0 45.09 244.0 .030 22 .67 1,29 .00 43 37 32.3 723 .9 169.2 44 10 . 030 . 000 42.24 361 31 0 .00 255.89 517 20 FLOW DISTRIBUTION FOR SECNO- 550.00 CWSEL- STA- 361. 397. 400. PER Q- 7.6 1.0 33.0 AREA- 33.8 4.4 244.0 VEL- 4.3 4.5 DEPTH-1.0 1.1 515. 6.9 2 .1 3.4 32 .0 2.0 .3 1490 NH CARD USED •SECNO 550.000 3301 HV CHANGED MORE THAN HVINS 7135 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 560.000 2.79 45.03 45.03 .00 46.24 1900.0 .0 1900.0 .0 .0 215.8 .34 .00 8.81 .00 .000 .030 .010043 110. 105. 111. 0 11 1.20 .38 .00 45 87 .0 724 .5 169.6 46 50 . 000 . 000 42.24 363 04 0 . 00 90.77 453 81 FLOW DISTRIBUTION FOR SECNO- 560.00 CWSEL-45.03 STA- 363. 453 PER Q- 100.0 AREA- 215.3 VEL- 8 .3 DEPTH- 2 .4 •SECNO 570.000 24JUL02 13 :50:19 PAGE 62 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 3265 DIVIDED FLOW 3301 HV CHANGED MORE THAN HVINS 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 570.000 2.15 47.65 47.65 1900.0 .0 1594.2 305.8 .85 .00 5.53 3.19 .007347 271. 194. 199. .00 . 0 .000 0 48.23 244 .1 .030 15 .53 1.56 .00 47 69 95.3 725 . 8 170.5 47 30 . 030 .000 45.50 348 40 0 . 00 295.66 795 23 FLOW DISTRIBUTION FOR SECNO-570.00 CWSEL- 343. 697. 743 . 778 . PER Q-83 9 3 5 7 5 4 5 6 AREA-244 1 27 2 37 8 25 3 5 5 VEL-6 5 2 5 3 3 3 4 2 0 DEPTH-1 9 1 3 7 3 1490 NH CARD USED •SECNO 580.000 3265 DIVIDED FLOW 7135 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 3470 ENCROACHMENT STATIONS-265.0 485.0 TYPE-1 TARGET-220 000 530.000 4 .32 51.90 51.90 .00 52.83 . 93 1.03 . 00 49 50 1900.0 143 .3 633.7 1123.0 24 .1 51.7 328.5 727.9 171.3 49 20 .36 5.95 12 .25 3 .42 . 015 . 015 .040 . 000 47 . 03 265 00 .002654 279. 248 . 245 . 0 20 0 . 00 177.43 485 00 FLOW DISTRIBUTION FOR SECNO-580.00 CWSEL- STA-265. 343 . 343 . 371. 384. 485 . PER Q-7 5 33 2 1 4 2 4 0 3 1 15 4 14 0 9 6 5 4 2 4 AREA-24 1 51 2 5 25 2 27 3 21 6 99 5 70 0 46 4 25 9 12 6 VEL-6 0 12 3 3 7 3 2 2 8 2 7 3 1 3 8 3 9 4 0 3 7 DEPTH-4 4 1 2 7 2 1 1 7 1 7 2 1 2 3 3 0 3 0 2 9 13:50:1S PAGE 63 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV 1 QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV \ TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 1490 NH CARD USED •SECNO 590.000 3301 HV CHANGED MORE THAN HVINS 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 3470 ENCROACHMENT STATIONS-65.0 13 5.0 TYPE 1 TARGET-70 000 590.000 6.85 56.52 56.52 .00 53.11 1.59 1.07 .00 100000 00 1900.0 .0 1900.0 . 0 . 0 187.6 . 0 729.6 172.5 100000 00 .87 .00 10 .13 . 00 . 000 .027 . 000 .000 49.67 65 00 .008018 255. 249 . 251. 0 14 0 .00 61.78 126 78 FLOW DISTRIBUTION FOR SECNO-590.00 CWSEL-55.52 STA- 55. 135. PER Q- 100.0 AREA- 187.6 VEL- 10.1 DEPTH- 3.0 24.JUL02 13:50:19 PAGE 64 THIS RUN EXECUTED 24JUL02 13:50:20 ************************************* HEC-2 WATER SURFACE PROFILES Version 4.6.2; May 1991 ************************************* NOTE- ASTERISK (•) AT LEFT OF CROSS-SECTION NUMBER INDICATES MESSAGE IN SUMMARY OF ERRORS LIST D ON FEMA Q FOR SAN MARC SUMMARY PRINTOUT TABLE 150 SECNO XLCH ELTRD ELLC CWSEL CRIWS EG lO^KS VCH AREA 20.000 88.20 30.000 109.40 .00 .00 .00 .00 2.09 14700.00 15.27 13.49 16.90 14.76 7.04 2447.86 3825.6 2.09 14700.00 15.53 14.43 17.02 13.81 6.33 2756.30 3955.7 2.10 14700.00 16.34 14.24 17.14 3.62 4.96 3453.54 5006.0 40.000 115.10 50.000 141.30 60.000 173.00 70,000 219.80 80.000 74.80 . 00 . 00 .00 .00 .00 .00 2.00 14700.00 15.95 '13.51 17.23 6.90 2.05 14700.00 17.09 12.79 17.32 5.88 2.00 14700.00 17.21 13.09 17.41 5.43 2.09 14700.00 17.14 12.55 17.53 22.21 2.09 14700.00 17.47 13.04 17,73 8,55 4.56 3555.37 5594.5 4.41 3949.15 6059.8 3.79 4021.24 6307.6 3.73 2842.94 3119.2 2.16 3965.43 5027.0 90.000 206.70 . 00 2.09 14700.00 17.70 12.62 17.39 7.52 2.89 4284.92 5359.£ 100.000 118.10 . 00 2.25 14700.00 17.83 12.35 17.96 2.34 5305.35 "7073.8 110.000 114.40 .00 . 00 2.20 14700.00 17.90 11.89 18.00 3.25 2.09 5951.90 3150.5 120.000 180.30 . 00 2.27 14700.00 17.93 13.02 18.07 5.00 2.44 5083.64 6574.6 130.000 129.60 . 00 2.27 14700.00 18.00 12.79 18.11 2.84 2.59 5482.02 8717.4 140.000 274.40 150.000 145.90 • 160.000 147.40 . 00 . 00 ,00 6.10 14700.00 18.03 12.33 18.17 6.69 14700.00 18.10 13.12 13.20 6.27 14700.00 13.16 12.61 13.22 1.89 2.19 1.10 2.42 6091,73 10680.4 2.46 5910.79 9937.8 1.96 7701.36 14022.1 170.000 203.00 . 00 .00 6.22 14700.00 18.19 13.00 18.25 1.71 2.04 7232.27 11233.9 24JUL02 13:50:19 PAGE 65 SECNO XLCH ELTRD ELLC ELMIN CWSEL CRIWS EG 10•KS VCH AREA 180.000 145.00 • 190.000 130.00 200.000 150.00 210.000 176.50 220.000 180.70 230.000 153.70 240.000 185.80 • 250.000 111.90 • 260.000 94.60 .00 .00 . 00 .00 .00 .00 .00 . 00 •00 6-09 14700.00 18.22 13.56 18.27 1.31 2.06 7333.17 10922.4 •00 5.40 14700.00 18.19 15.34 18.31 4.94 3.05 5456.85 6613.5 •00 6.79 14700.00 18.28 14.72 13.37 2.90 2.38 6113.77 8628.9 •00 7.28 14700.00 13.31 15.12 13.44 4.69 2.25 5201.77 5791.3 •00 • 8.05 14700.00 18.39 15.22 18.52 4.32 2.51 5153.67 7074.2 •00 3.19 14700.00 18.40 • 16.34 18.61 8.35 3.52 4095.93 5082.8 .00 8.82 14700.00 18.52 17.18 18.33 16.49 5.17 3372.55 3520.4 •00 3.32 14700.00 18.48 17.32 19.10 35.26 7.45 2379.16 2441.0 •00 9^54 14700.00 19.10 19.10 20.35 62.57 10.64 1707.91 1858.3 270.000 80.50 . 00 9.29 14700.00 19.95 19.50 20.31 52.37 8.72 2104.94 2031.3 230.000 50.50 290.000 330.30 . 00 ,00 9.30 14700.00 20.60 17.55 9.60 14700.00 20.99 18.52 20.92 11.09 4.46 3337.17 4413.4 21.24 9.04 4.01 3624.22 4890.3 • 300.000 387.20 • 310.000 358.20 • 320.000 338.90 .00 .00 . 00 .00 10.45 14700.00 21.19 20.14 21.34 32.11 7.05 2291.34 2594.0 .00 11.53 14700.00 22.13 19.71 22.41 9.22 4.50 3505.33 4842.3 .00 12.53, 14700.00 21.95 21.95 23.24 84.14 9.36 1665.97 1502.5 • 330.000 255.70 340.000 292.00 .00 .00 13.12 14700.00 23.59 21.96 13.40 14700.00 24.08 22.43 24.09 16.52 5.44 2892.33 3606.1 24.63 20.93 6.25 2479.90 3213.4 350.000 234.50 . 00 14.55 14700.00 24.45 23.53 25.29 38.30 7.52 2030,18 2375.4 • 360.000 305.10 370.000 470.00 380.000 262.30 390.000 235.10 .00 .00 . 00 .00 14.90 14700.00 25.70 25.70 27.30 73.73 11.50 1531.46 1711.9 .00 16.20 14700.00 28.30 26.43 28.92 20.50 5.72 2333.01 3238.4 .00 18.39 14700.00 28.74 27.82 29.58 32.89 7.92 2015.53 2563.1 .00 20.16 14700.00 29.64 28.74 30.58 40.21 8.03 1892.07 2318.1 • 400.000 302.30 -180.000 145.00 .00 .00 22.10 14700.00 33.09 33.09 .00 6.09 14700.00 18.22 36.12 110.73 14.19 1076.88 1396.6 .00 18.27 1.80 2,05 7393.02 10943.9 • 410.000 207.00 . 00 . 00 9.39 1900.00 18.29 13.68 18.30 .26 .97 2635.80 3706.5 • 420.000 176.70 . 00 .00 10.25 1900.00 18.30 15.21 18.31 .54 1.22 2191.72 2591.3 24JUL02 PAGE 66 SECNO XLCH ELTRD ELLC CWSEL CRIWS lO^KS VCH AREA • 430.000 127.50 440.000 188.90 .00 .00 14.90 1900.00 18.25 16.88 18.32 6.29 2.59 365.34 757.6 .00 15.27 1900.00 18.35 16.53 13.42 4.06 1.98 979.79 942.9 • 450.000 277.30 • 460.000 246.50 .00 .00 15.33 1900.00 18.95 13.95 .00 15.61 1900.00 21.24 21.24 19.45 75.49 7.61 337.55 218.6 21.72 37.12 3.07 450.04 311. • 470.000 250.50 • 480.000 235.00 • 490.000 247.90 • 500.000 157.70 • 510.000 187.90 • 520.000 251.50 .00 .00 .00 •00 16.35 1900.00 23.85 23.86 24.36 44.31 7.69 435.67 285.4 .00 18.34 1900.00 26.66 26.66 27.56 37.01 9.21 300.73 312.3 .00 23.90 1900.00 30.42 30.42 31.57 .73.27 11.09 235.68 221.9 .00 25.39 1900.00 31.89 31.51 32.29 31.64 6.44 410.12 337.8 .00 27.27 1900.00 33.67 33.67 34.24 41.94 7.69 339.33 293.4 .00 30.66 1900.00 36.25 36.25 36.96 49.28 9.89 321.53 270.6 • 530.000 290.80 • 540.000 314.40 .00 31.39 1900.00 40.12 .00 36.90 1900.00 . 42.99 42,99 43.48 44.56 40.12 41.06 51.86 9.04 291.48 263.8 i.33 425.75 284.6 • 550.000 231.00 . 00 .00 42.24 1900.00 44.42 44.42 45.09 70.38 6.35 314.42 225.6 • 550.000 105.00 • 570.000 193.60 • 580.000 247.50 .00 . 00 .00 42.24 1900.00 45.03 45.03 .00 45.50 1900.00 47.65 45.24 100.48 3.31 215.77 189.5 47.65 48.23 73.47 6.53 339.91 221.6 .00 47.08 1900.00 51.90 51.90 52.83 25.54 12.25 404.34 368.8 • . 590.000 243.90 .00 .00 49.67 1900.00 56.52 56.52 53.11 30.18 10.13 187.51 212.1 24JUL02 13:50:19 PAGE 67 D ON FEMA Q FOR SAN MARC SUMMARY PRINTOUT TABLE 150 SECNO CWSEL DIFWSP DIFWSX DIFKWS TOPWID XLCH 10.000 14700.00 16.27 .00 426.20 20.000 14700.00 16.53 . 00 .25 .00 550.70 88.20 30.000 14700.00 16.84 .00 .31 .00 644.43 109.40 40.000 14700.00 16.95 .00 .00 618.50 115.10 50.000 14700.00 17.09 . 14 .00 655.91 141.80 60.000 14700.00 17.21 . 00 .00 635.66 173.00 70.000 14700.00 17.14 .00 - . 07 .00 441.15 219.30 30.000 14700.00 17.47 .34 .00 566.61 74.30 90.000 14700.00 17.70 . 00 .23 .00 659.34 206.70 100.000 14700.00 17.33 .00 .00 755.35 118.10 110.000 14700.00 17.90 .00 810,55 114.40 120.000 14700.00 17.93 . 03 .00 742.09 180.30 130.000 14700.00 18.00 .00 . 07 .00 340.52 129.60 140.000 14700.00 18.03 .00 920.54 274.40 150.000 14700.00 18.10 .00 974.03 145.90 160.000 14700.00 13.16 .00 1142.50 147.40 170.000 14700.00 18.19 . 02 .00 1442.98 203.00 180.000 14700.00 18.22 .03 .00 1599.05 145.00 190.000 14700.00 18.19 .00 - .02 .00 1457.19 130.00 200.000 14700.00 18.28 .00 1358.23 150.00 210.000 14700.00 18.31 .00 .03 .00 1290.74 175.50 220.000 14700.00 13.39 .00 .00 1281.03 180.70 230.000 14700.00 18.40 .00 . 01 .00 1152.74 163.70 240.000 14700.00 18.52 .00 .12 .00 1141.65 135.80 24JUL02 13:50:19 PAGE 58 SECNO CWSEL DIFWSP DIFWSX DIFKWS TOPWID XLCH f * 250.000 14700.00 18.48 260.000 14700.00 19.10 270.000 14700.00 19.95 230.000 14700.00 20.60 290.000 14700.00 20.99 300.000 14700.00 21.19 310.000 14700.00 22.13 320.000 14700.00 21.95 330.000 14700.00 23.59 340.000 14700.00 24.08 350.000 14700.00 24.45 360.000 14700.00 25.70 370.000 14700.00 28.30 380.000 14700.00 28.74 390.000 14700.00 29.64 400.000 14700.00 33.09 -180.000 14700.00 18.22 410.000 1900.00 18.29 • 420.000 1900.00 18.30 • 430.000 1900.00 18.25 440.000 1900.00 13.36 • 450.000 1900.00 18.95 460.000 1900.00 21.24 470.000 1900.00 23.86 430.000 1900.00 26.55 • 490.000 1900.00 30.42 .00 ,00 •00 -.04 .00 339.70 111.90 •00 .62 .00 615.39 94.60 •00 .85 .00 592.58 80.50 •00 .65 .00 705.91 50.50 .00 .39 .00 336.52 330.30 .00 .20 .00 688.03 387.20 .00 .94 .00 803.87 353.20 •00 -.13 .00 656.74 333.90 .00 1.74 .00 693.54 266.70 .40 .00 556.74 292.00 / .37 .00 510.49 234.50 -.24 .00 457.83 305.10 .00 537.75 470.00 .00 .44 .00 545.32 252.30 .00 .89 .00 510.42 285.10 .00 3.46 .00 134.40 302.30 .00 -14.88 .00 1599.10 145.00 .00 668.63 207.00 .00 557.20 176.70 •00 -.05 .00 399.01 127.60 .00 .11 .00 372.32 183.90 •00 .60 .00 403.34 277.30 .00 2.29 .00 415.39 246.50 .00 2.62 .00 403.61 250.50 •00 2.80 .00 160.83 236.00 •00 3.76 .00 112.53 247.90 .00 2.61 .08 . 00 24JUL02 13:50:19 PAGE 69 SECNO CWSEL DIFWSP DIFWSX DIFKWS TOPWID XLCH 500.000 1900.00 31.89 • 510.000 1900.00 33.67 • 520.000 1900.00 36.25 530.000 1900.00 40.12 540.000 1900.00 42.99 550.000 1900.00 44.42 • 560.800 1900.00 45.03 • 570.000 1900.00 47.65 530.000 1900.00 51.90 • 590.000 1900.00 56.52 •00 1.47 .00 241.53 157.70 •00 1.73 .00 298.39 187.90 •00 2^58 .00 241.68 261.50 •00 3.87 .00 167.99 290.80 •00 2.87 .00 381.32 314.40 .00 1.43 .00 255.89 231.00 .00 .61 .00 90.77 105.00 •00 2^61 .00 295.66 193.50 •00 4.25 .00 177.43 247.50 •00 4.62 .00 61.78 248.90 13:50:19 PAGE 70 SUMMARY OF ERRORS AND SPECIAL NOTES WARNING SECNO- 70.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE WARNING SECNO- 80.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE WARNING SECNO- 160.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE WARNING SECNO- 190.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE WARNING SECNO- 250.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE CAUTION SECNO- CAUTION SECNO- 250.000 PROFILE- 1 CRITICAL DEPTH ASSUMED 260.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY WARNING SECNO- 280.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE WARNING SECNO- 300.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE WARNING SECNO- 310.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE CAUTION SECNO- CAUTION SECNO- 320.000 PROFILE- 1 CRITICAL DEPTH ASSUMED 320.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY WARNING SECNO- 330.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE CAUTION SECNO- CAUTION SECNO- 360^000 PROFILE- 1 CRITICAL DEPTH ASSUMED 360^000 PROFILE- 1 MINIMUM SPECIFIC ENERGY WARNING SECNO- 370^000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE CAUTION SECNO- CAUTION SECNO- 400^000 PROFILE- 1 CRITICAL DEPTH ASSUMED 400^000 PROFILE- 1 MINIMUM SPECIFIC ENERGY WARNING SECNO- 410.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE WARNING SECNO- 420.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE WARNING SECNO- 430.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE CAUTION SECNO- CAUTION SECNO- 450.000 PROFILE- 1 CRITICAL DEPTH ASSUMED 450.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY CAUTION SECNO- CAUTION SECNO- 460.000 PROFILE- 1 CRITICAL DEPTH ASSUMED 460.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY CAUTION SECNO- CAUTION SECNO- 470.000 PROFILE- 1 CRITICAL DEPTH ASSUMED 470.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY CAUTION SECNO- CAUTION SECNO- 480^000 PROFILE- 1 CRITICAL DEPTH ASSUMED 430.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY CAUTION SECNO- 490.000 PROFILE- 1 CRITICAL DEPTH ASSUMED 13:50:19 PAGE 71 CAUTION SECNO- WARNING SECNO- 490.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY 500.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE CAUTION SECNO- 510.000 PROFILE- 1 CRITICAL DEPTH ASSUMED CAUTION SECNO- 510.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY CAUTION SECNO- 520.000 PROFILE- 1 CRITICAL DEPTH ASSUMED CAUTION SECNO- 520.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY CAUTION SECNO- 530.000 PROFILE- 1 CRITICAL DEPTH ASSUMED CAUTION SECNO- 530.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY CAUTION SECNO- 540.000 PROFILE- 1 CRITICAL DEPTH ASSUMED CAUTION SECNO- 540.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY CAUTION SECNO- 550.000 PROFILE- 1 CRITICAL DEPTH ASSUMED CAUTION SECNO- 550.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY CAUTION SECNO- 560.000 PROFILE- 1 CRITICAL DEPTH ASSUMED CAUTION SECNO- 560.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY CAUTION SECNO- 570.000 PROFILE- 1 CRITICAL DEPTH ASSUMED CAUTION SECNO- 570.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY CAUTION SECNO- 580.000 PROFILE- 1 CRITICAL DEPTH ASSUMED CAUTION SECNO- 530.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY CAUTION SECNO- 590.000 PROFILE- 1 CRITICAL DEPTH ASSUMED CAUTION SECNO- 590.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY CROSS-SECTXON NO. 20.000 • ISTi^NCE CROSS-SECTION NO. ±0.000 DISTANCE CROSS-SECTION NO. H-0.000 ^ •. 0313 ffl ' S! ^— 1 ffi •J— . 030 i / ' • ' ' 1 1 • • • • 1 • • • • 1 ' ' ' ' 1 ' • • • 1 ' • ' • 1 —.—,—1—^—h —1 , 1 . F 700 SOB 9130 J.B0a ixa0 OISTiANCE CROSS-SECTION ND. 30.000 i.60 SHS H00 HS0 DISTANCE ssa sHa ysa SOB CROSS-SECTION NO. SO.000 500 600 DISTANCE 700 800 Baa j.oaa xiaa CROSS-SECTION NO. 50.000 j.e00 J.J.00 DISTANCE CROSS-SECTION NO. S0.000 DISTANCE CROSS-SECTION NO. 70.000 DISTANCE CROSS-SECTION ND. ±00.000 500 600 DISTi-=iNCE 300 J.000 XX00 CROSS-SECTION ND . 90.000 DISTANCE CROSS-SECTION ND. 120.000 900 J.O00 DISTiANCE CROSS-SECTION NO. J_X0 . 000 H-00 500 7*00 S00 900 j.ei00 J.X00 DIST/^NCE CROSS-SECTION ND . J.4-0 . 000 3S0 0-^ 1 \ J.O0 500 300 H00 500 600 DISTJANCE T'BO 300 300 X000 J.X00 CROSS-SECTION ND. ±30.000 uj_j J.5 CROSS-SECTION NO. ±60.000 DISTANCE CROSS-SECTION NO. ±50.000 600 500 DISTANCE CROSS-SECTION NO. ±60.000 \& .0 ^0 — ^ i . 03 ? i > M —1—1—1—^ —1—1—, ^ 1 . . 1 Ha0 600 sa0 J.0O0 J.S00 DISTANCE J.HO0 xeaa ±s0a aoo0 2500 CROSS-SECTION ND . ±70.000 Haa 600 J.000 ±600 DISTANCE iHei0 J.S00 j.a00 aei00 asea I CROSS-SECTION ND. 600.000 6(300 6600 CROSS-SECTION NO. ±S0.000 L-UJ J.S 3 030 ^ . Q60 tri ^ A / -.—.—.—1 • 1 . 1 . . . > —,—,—I —1—1—.—i —1—1—1—1 — 1 1 1 J 1 1 . 1 300 4-00 e00 i000 i£00 i4-O0 J.S00 J.S00 32100 DISTf^NCE CROSS-SECTION ND. 620.000 DISTANCE CROSS-SECTION NO. 610.000 600 0.000 1600 DISTANCE •LH00 ±S00 6000 6600 CROSS-SECTION ND . 24-0.000 DISTANCE CROSS-SECTION ND. 230.000 DISTANCE I t CROSS-SECTION NO. 260.000 DISTANCE CROSS-SECTION NO. 250.000 DISTANCE CROSS-SECTION ND. 260.000 Lj_j 32" • DISTANCE CROSS-SECTION NO. 270.000 DISTANCE I I CROSS-SECTION NO. 300.000 DISTANCE CROSS-SECTION NO. 660.000 L-H JLE DISTANCE CROSS-SECTION ND. 660.000 Haa sa0 80a 90a xeaa j.xaa DISTANCE CROSS-SECTION ND. 610.000 300 Haa 8a0 sa0 ;7aa 800 DISTANCE CROSS-SECTION NO. 64-0.000 DISTiANCE CROSS-SECTION ND. 330,000 X60 aH-0 4-00 '+S0 DISTANCE 56Q 64-0 8 00 SS0 CROSS-SECTION ND. 360.000 5Ha 36a Ha0 HS0 sea SHB DISTANCE sao S60 CROSS-SECTION ND. 650.000 H00 HSB DISTANCE ESQ 6H0 CROSS-SECTION ND . 660.000 H00 HS0 DISTANCE CROSS-SECTION NO. 370.000 DISTANCE CROSS-SECTION ND . S-00 . 000 DISTANCE CROSS-SECTION ND. 390.000 H00 HS0 DISTANCE CROSS-SECTION ND . H-±0 . 000 600 DISTANCE CROSS-SECTION ND. -±80.000 « .0 ^0 ^ 1 . 03 P ', —•——h —.—,—(• 1 —r—. . f-. • 1-. , 1-—^—,—,—f-—' . . 1 —T—,—,—^ —'—•—•—1-—1—•—•—^ i©00 J.S00 3000 3300 DISTANCE CROSS-SECTION ND . H-S0 . 000 <1 030 Sr-p r^ 330 ^ —^ —1—I—.—1 —.—.—.—1 1 1 1 ( p . 1 1 , , , 1 1 f 1 1 XS0 6H0 320 Haa H60 560 SHa 760 SOB e8B DISTANCE CROSS-SECTION ND. H20.000 DISTANCE I CROSS-SECTION ND . 4-50.000 DISTANCE CROSS-SECTION ND . H-4-0 . 000 sea H00 HS0 ssa saa 8SB DISTANCE CROSS-SECTION NO. 4-70.000 DISTANCE CROSS-SECTION ND . 4-60.000 H00 HS0 DISTANCE CROSS-SECTION ND . 4-90.000 H50 sea DISTANCE CROSS-SECTION ND . 4-S0 . 000 DISTANCE CROSS-SECTION ND. 510.000 DISTANCE CROSS-SECTION NO. 500.000 saa SS0 H0a Hsa DISTANCE CROSS-SECTION NO. 560.000 DISTANCE CROSS-SECTION ND. 520.000 DISTANCE CROSS-SECTION ND. 550.000 DISTANCE CROSS-SECTION NO. 54-0.000 DISTANCE CROSS-SECTION ND . 570.000 XS0 6HB HB0 H80 SH0 7aa DISTANCE CROSS-SECTION ND . 560.000 ssa 6H0 DISTANCE CROSS-SECTION NO. 560.000 DISTANCE CROSS-SECTION ND. 580.000 HO0 HS0 DISTANCE ******************************************** • HEC-2 WATER SURFACE PROFILES • • * • Version 4.6.2; May 1991 • • * • RUN DATE 24JUL02 TIME 14:43:56 • ******************************************** ************************************* • U.S^ ARMY CORPS OF ENGINEERS • HYDROLOGIC ENGINEERING CENTER • 609 SECOND STREET, SUITE D • DAVIS, CALIFORNIA 95616-4687 • (916) 756-1104 **********************************iHf* IPrUD^m- 6c;L(^ CouJZSe X X xxxxxxx XXXXX XXXXX X X X X X X X X X X X X xxxxxxx xxxx X xxxxx xxxxx X X X X X X X X X X X X X XXXXXXX xxxxx xxxxxxx 24JUL02 14:43:56 PAGE THIS RUN EXECUTED 24JUL02 14:43:56 ************************************* HEC-2 WATER SURFACE PROFILES Version 4.5^2; May 1991 ************************************* THIS IS AN ARCHIVAL RUN ALL DATA AND RESULTS ARE SAVED ON UNIT 96 AC THE Q OF 1900 CFS FOR THE NORTHERLY STREAM WAS FROM A STUDY PERFORMED BY AC RICK ENGINEERING FOR RANCHO CARRILLO (J-12119C)DATED 01-12-95. AC THE FEMA FOR SAN MARCOS CREEK IS Q=14700 CFS. AC THE STARTING WSEL WAS FROM A REPORT DONE BY RICK ENGINEERING COMPANY AC DATED 09-25-91 FOR THE LA COSTA EMPLOYEE PARKING LOT.(J-11347) **************************************************************************** Tl LA COSTA GOLF COURSE J-13952 07-24-02 (FN: LCGCP.HC2) T2 SAN MARCOS CREEK AND NORTHERLY TRIBUTARY STREAM lOO-YEAR PROPOSED COND. T3 BASED ON FEMA Q FOR SAN MARCOS CREEK AND RANCHO CARRILLO STUDY FOR TRIB. Jl ICHECK INQ NINV IDIR STRT METRIC HVINS Q WSEL FQ J2 NPROF IPLOT PRFVS XSECV XSECH FN ALLDC IBW CHNIM J3 VARIABLE CODES FOR SUMMARY PRINTOUT 150 15 QT 14700 NH NH ET XI GR GR GR GR GR GR GR GR GR GR GR GR GR 5 662.7 10 • 0 14 14.29 14.38 13.95 7.20 2.10 10^43 8^2 12 18 12 12 . 83 12 .40 9.1 63.0 0 38^6 115.7 126^5 139.7 186.8 236.2 271 344 541 613 631^3 543.5 125 126.5 14 14.53 14.35 11.94 6.11 2.09 10.47 10 13 19 12.0 12^3 12 . 54 235 • 9 65 89.3 116.2 129.9 161.5 213 .2 239.7 282 445 555 613 .5 637.2 651.8 164 ^2 . 0 12.7 14^5 14.3 9.7 6 .1 5.9 10^6 11.5 13 , 5 18 12 . 77 12 . 85 12 . 90 . 0 80 91.3 119.6 132 . 9 164.2 225.1 246 233 482 570 624.2 640.9 662 . 7 . 0 12 . 65 14.53 14 . 11 8.40 3.29 8.19 10.6 11.5 14 16 12 .85 12 . 87 81.3 100.4 124.7 135.4 170 .1 229.3 252 298 485 590 628.5 642 .2 239.7 12 . 79 14.39 14 .10 7.33 2 .10 10.43 10 11.5 16 14 12.88 12.36 86.7 114.3 125.0 136.9 182.6 235. 9 255 301 513 605 629.7 643 .1 14:43:56 PAGE NH 5 03 215 .5 05 25S . 1 03 306.3 05 320.7 .03 NH 772 . 5 ET 9 • 1 43 607 XI 20 . 0 78 • 0 204 . 0 327 • 3 88 • 5 86 • 9 88.2 GR 14 . 9 . 0 15. 11 9 • 3 15. 74 10 .3 17 . 90 15 .4 21. 1 19.2 GR 21. 96 21 . 9 17. 11 27 .5 15. 14 29 . 6 15.35 31 .5 14.9 32 .5 GR 14 . 57 35 . 0 13 . 86 49 .2 13 . 73 54 . 9 13 .76 71 .2 14.13 89.4 GR 14 . 32 95 .4 15. 28 110 . 3 17 . 67 112 . 7 19 .1 114 .2 18 . 95 117.1 GR 18 . 89 118 .2 19. 13 121 .4 17. 80 124 .3 15.3 125 .4 15.51 126.7 GR 15 . 52 133 .4 15. 29 135 . 9 14. 75 142 .3 14.8 147 . 5 13.83 150.4 GR 12 . 65 153 . 6 12 . 53 159 . 1 12 . 27 164 . 1 12 .4 167 . 8 13 . 00 168.8 GR 13 . 38 170 . 8 13 . 70 179 .4 13. 62 191 . 5 13.4 204 . 0 12.55 213 .3 GR 12 . 40 215 . 5 10. 96 218 .6 7. 51 226 . 8 7.2 231 .3 6.69 243 . 5 GR 5. 35 251 . 6 4 . 45 255 . 1 2 . 10 259 . 1 2 .1 289 . 0 2 . 09 306.3 GR 5. 25 311 . 0 9. 92 317 . 9 11. 02 320 .7 12 323 12 328 GR 10 338 9 . 1 342 10 346 11.3 352 12 436 GR 13 536 14 636 14 • 5 673 16 685 16 696 GR 14 704 12 .3 707 12. 93 716 .6 14 . 0 723 .3 14.54 727.3 GR 14 . 55 732 • 5 14 . 48 739 • 7 14 . 45 745 .5 14 • 2 750 . 1 14.23 750.8 GR 14 . 57 757 • 8 14 . 33 765 • 8 14 . 82 772 .5 NH 5 03 230 • 05 279 • 7 . 03 327^3 . 05 351 .03 NH 833 • 5 ET 9 • 1 120 111 .2 XI 30 . 0 63 . 0 225 • 3 346 105 .2 105 . 7 109^4 GR 14 . 0 .0 13 . 96 2 .3 13 . 91 5 • 1 13 • 91 8 .3 13.58 25.5 GR 13 . 6 26 • 8. 13 . 34 46 .4 13 . 31 48 .6 13.50 59 . 1 13.54 80.2 GR 13 . 5 88 . 9 13 . 45 99 . 5 13 . 10 110 • 0 12.30 113 . 9 12.32 121.0 GR 12 .6 135 . 1 12 . 52 141 . 8 12 . 62 161 .2 12.63 162 . 0 12.52 182.8 GR 12 .2 198 . 8 12 . 21 203 .5 12 . 44 220 . 3 12 . 56 225 .3 12.19 230.0 GR 12 . 0 234 .2 9. 21 240 .2 8. 65 241 • 4 3.60 242 .6 7.99 254.8 GR 7 . 1 267 . 3 6. 90 269 .6 2 . 29 279 . 7 2 .10 280 .2 2.10 290.3 GR 2 . 1 327 .3 7. 24 335 . 1 10. 08 341 • 3 12 . 9 346 12 . 9 351 GR 10. 07 363 11 .2 373 12 468 13 568 14 663 GR 14 . 8 758 16 . 8 763 16. 85 764 • 5 18 . 02 769 . 6 18.S 773 . 9 GR 18 • 77 777 • 2 18 • 65 779 • 6 18 . 62 782 • 6 17.73 788 . 8 17.5 790 .2 GR 17 . 08 796 . 9 16 . 64 805 .3 16. 47 803 • 5 16.66 814 . 1 16.2 814.3 GR 17 . 02 829 . 0 17. 11 831 • 0 17. 14 833 . 5 NH 5 . 03 254 • 6 . 05 293 . 6 . 03 343 . 7 . 05 364 . 03 NH 919 .4 ET 9 . 1 189 865 XI 40 .0 65 . 0 246 • 2 364 115 .7 116 . 0 115 .1 GR 15 .4 .0 17. 09 14 . 8 17. 16 15 6 17.31 32 6 17.22 41.3 GR 17 . 1 50 .2 17. 22 70 , 0 17. 29 91 2 17.0 110 4 17.59 118.5 GR 17. 82 130 .2 17. 15 136 . 1 15. 95 139 7 15.4 141 3 15.41 146.8 GR 15. 44 155 . 1 15. 46 158 . 0 15. 59 170 1 15.6 172 1 15.88 178.0 GR 15. 53 185 . 8 14. 23 187 .5 14. 85 188 6 16.5 191 9 16.13 194.8 GR 15, 70 1 9-7 7 15. 49 208 . 6 16 , 14 212 2 15,0 221 6 14 ,73 225.6 GR 13 . 98 231 .8 13 . 33 246 .2 13. 21 247 5 11.3 252 9 11.00 254.6 GR 9. 98 262 . 4 9. 02 272 . 0 8 . 07 276 2 6 . 9 284 2 6.43 285 .1 24JUL02 PAGE GR 2. 10 293 .6 2 07 319 . 9 2 06 330 .7 2 . 0 343 . 7 9 .07 356.9 GR 12 . 05 362 .1 13 354 13 368 9.9 381 10.6 391 GR 11 430 12 521 13 632 14 732 15 319 GR 19. 45 850 19 43 851 .8 19.2 860 • 5 19 20 863 .2 18 .73 869.8 GR 19. 07 876 .8 19 44 886 • 0 19.1 888 . 3 18 42 901 .4 19 . 55 919.4 NH 7 03 275^5 05 303.4 .03 350 .05 366 .03 NH 579 .4 • 051 819.9 03 946 . 9 ET 9 . 1 204 385 XI 50 . 0 82 . 0 268 .4 366 132.3 143 • 5 141.8 GR 17 .4 • 0 17 23 12 .3 17 28 16 • 6 17 19 34 4 17 .17 46.2 GR 17 . 1 57 • 2 17 03 73 . 9 17 07 73 6 17 21 81 4 17 . 18 99. 9 GR 17 . 1 100 • 4 17 03 101 .4 17 06 124 2 17 05 124 4 17 .20 149.6 GR 17 . 0 173 • 3 16 72 179 .5 16 68 185 7 15. 89 189 2 15 .56 190.8 GR 15 . 1 196 • 8 14 90 200 .6 14 50 212 0 14 . 40 215 8 14 .37 217.8 GR 14 .4 237 .3 14 14 255 • 1 14 08 251 4 14 • 96 265 5 16 . 03 268.4 GR 12 . 6 275 • 5 12 61 275 • 5 11 71 283 0 8 • 91 290 0 7 .93 292 . 3 GR 7 . 1 2 94 • 4 2 91 303 .4 2 10 305 1 2 . 05 349 1 2 .05 349.7 GR 2 .2 350 . 0 5 29 355 . 0 11 50 366 11 .5 371 3.5 383 GR 9 .5 394 9.8 438 10. 1 457 IC .3 433 10 535 GR 9. 35 555 10 35 571 .3 10 59 579 4 11 .0 594 3 11 .46 605.9 GR 11. 90 618 . 7 11 96 531 .2 12 29 647 2 12 .3 665 0 12 .34 659.5 GR 12 . 99 701 .1 13 29 707 .4 13 50 733 8 13 . 7 747 8 13 94 771. 0 GR 14 . 19 798 .2 14 46 811 • 0 14 52 819 9 15 . 1 836 4 15 63 843 .4 GR 16 . 88 854 .4 17 20 860 .6 17 46 870 1 17 .0 886 8 16 97 837.6 GR 15 . 04 893 • 1 15 62 908 .2 16 26 912 5 16 .6 924 5 16 64 928.7 GR 15 . 32 936 .0 17 64 946 . 9 NH 7 . 03 29C .4 . 05 319.4 . 03 353 • 5 .05 376 .03 NH 664 .2 • 051 355 .03 984 • 7 XI 60 . 0 97 • 0 204 .4 369 . 7 172 .0 174 0 173 . 0 X3 10 GR 7 . 1 0 6. 95 8 .3 6. 92 11 0 6. 87 13 4 6 67 25.3 GR 6 .5 40 3 6. 49 44 .3 6, 52 56 8 6 . 56 61 9 7 10 75.2 GR 7 • 5 84 3 7 . 58 84 . 4 8 • 34 88 1 9. 63 91 0 8 86 92 . 9 GR 10 • 4 99 4 13 • 07 106 . 9 12 . 98 111 2 12 • 80 115 9 12 60 124.6 GR 12 . 1 137 6 12 . 25 152 . 9 12 . 29 159 2 12 • 37 163 4 12 52 179.9 GR 12 .5 187 9 12 . 67 188 7 13 . 67 191 6 16. 13 198 4 18 84 204.4 GR 18 .8 215 9 18 . 24 217 1 14 . 81 224 5 12 . 91 232 4 12 95 233.9 GR 12 • 9 242 8 12 . 97 250 9 13 . 02 252 3 14 . 75 255 2 15 66 257.1 GR 16 .2 255 8 16 . 31 267 4 15 . 23 280 2 14 . 39 287 1 14 35 239.7 GR 14 . 0 290 4 12 • 19 294 4 8. 28 302 8 3 . 68 315 4 2 10 319.4 GR 2 . 0 353 6 2 . 03 363 5 2 . 34 364 5 7. 84 369 7 7 53 376.0 GR 7 • 3 385 2 7. 96 388 6 7. 39 402 9 7 . 86 411 7 7 92 414 . 0 GR 8 . 1 424 7 3 . 18 439 5 8 . 23 444 5 8 . 33 455 9 8 54 465.5 GR 10 • 4 434 6 10. 32 489 3 11, 05 509 0 11. 12 521 8 11 25 534.5 GR 11 • 4 550 7 11. 48 560 0 11. 57 580 9 11^ 85 601 0 11 91 607.8 GR 11 .9 613 3 11. 65 623 0 11. 71 642 0 11. 76 645 7 11 69 564.2 GR 11 • 7 656 7 11. 74 676 5 12. 24 587 2 12. 39 702 • 2 12 70 730.7 GE 12 . 9 767 6 13 . 09 776 1 13 . 46 787 6 14 • 28 807 . 0 14 37 812 . 1 GR 14 .5 819 1 14. 63 331 4 14 . 77 844 5 14 . 80 847 . 5 14 86 855 GR 34 . 85 855 34 . 86 984 7 24JUL02 14:43:56 NH 4 03 274 • 6 1 370.0 03 632.6 . 051 1320 XI 70.0 87 • 0 220 . 7 365 1 208.2 219 .7 219.8 X3 10 GR 12.8 .0 7. 78 2 8 7 88 16 .2 7 45 46 0 7 23 73.8 GR 7 . 0 32 • 1 7 . 35 111 7 9 62 121 . 3 12 83 129 5 14 09 132 . 0 GR 13 .9 142 . 0 13 . 44 166 7 13 18 178 . 7 12 56 194 7 13 23 206.6 GR 15.1 213 . 1 15 . 74 214 8 18 53 220 . 7 18 47 228 2 18 50 233.3 GR 17^1 236 • 7 15. 40 241 2 13 71 246 .3 13 68 253 0 13 34 274 .1 GR 13 . 8 274 .3 13 • 83 274 6 12 96 275 .9 4 73 288 1 2 10 292.6 GR 2.1 303 .6 2 • 10 306 3 2 09 336 .1 2 09 345 0 5 72 348 .1 GR 5.9 349 .8 3. 43 355 7 10 33 365 . 1 10 83 370 0 10 71 372 . 0 GR 10.4 377 • 1 9. 91 389 1 9 55 394 • 9 9 57 414 9 9 42 421.7 GR 9.6 433 . 1 9. 68 445 0 9. 69 448 . 7 9 78 460 9 9 81 477 . 5 GR 9^3 480 . 3 9. 84 488 2 29. 84 488 .2 29 84 632 6 10 44 632 . 6 GR 10.27 665 , 8 10 • 9 539 7 30.9 689 .7 3C . 9 861 2 12 • 9 861.2 GR 13.43 879 . 0 13 . 95 919 5 16. 38 951 .6 15. 92 978 0 17 . 1 993 .5 GR 20.54 1007 • 4 21. 42 1011 1 24 . 29 1022 • 7 26. 17 1030 5 26 . 1 1042 .1 GR 26.24 1048 • 9 26^ 09 1063 0 25. 77 1073 • 9 25. 71 1033 5 2E .9 1103.7 GR 25.02 1117 . 1 26 • 11 1132 9 26^ 30 1150 .5 26 . 40 1155 9 26 • 4 1172.1 GR 26^37 1208 .5 26. 36 1212 0 29^ 28 1224 . 1 36. 69 1228 2 36 . 7 1235 GR 50 1235 60 1320 NH 4 03 248 .6 1 33S .2 .03 837 . 9 .051 1353 . 6 XI 80 . 0 91 . 0 226 . 5 339 2 69 . 5 75 7 74 .3 X3 10 GR 15.1 . 0 8 . 12 4 5 8 . 12 4 6 8 . 01 10 6 7 . 85 21.7 GR 7.8 24 . 9 7 . 75 39 7 7. 80 43 9 7. 97 57 1 8 . 04 70.5 GR 8.5 89 .3 9. 55 100 9 10 . 55 113 4 11. 34 113 4 15. 28 127.6 GR 15.6 138 . 3 15 . 58 145 6 15 . 43 157 3 15. 49 166 9 15 . 65 179.2 GR 15.4 195 . 1 17 . 60 217 5 19. 30 226 5 18 . 56 241 8 18 . 46 243 ^3 GR 16.9 248 . 6 12 . 71 256 2 9. 86 261 7 7. 01 267 1 2. 10 278.0 GR 2 .1 291 • 0 2 . 42 292 4 6. 20 297 1 5. 79 301 0 5. 36 303 .6 GR 3.5 307 . 1 2 • 09 310 5 2 • 09 322 1 2 . 09 329 7 10 . 00 339^2 GR 11 . 5 341 . 2 11 • 12 354 6 9 . 08 365 0 9 . 2 370 29 . 2 370 GR 29.2 400 9. 27 400 9 . 3 407 8 9. 56 412 4 9. 91 423 .2 GR 10.12 453 • 1 10. 37 473 9 10 .4 485 30 • 4 485 30 . 4 635 GR 10.4 635 10 • 3 661 7 10^ 57 680 1 10. 54 712 0 10. 78 741^6 GR 11.85 787 • 0 12 . 1 810 5 12 • 41 837 9 12 . 58 835 1 12 . 28 924^3 GR 12 .33 960 0 12 .5 972 5 15. 27 982 8 18 . 03 995 9 18 . 39 1015^7 GR 18.62 1038 1 18 . 6 1057 9 18 . 36 1081 4 18 . 09 1107 9 17. 90 1115.9 GR 20 . 10 1125 2 22 . 0 1133 7 22 . 64 1136 5 24 • 65 1145 9 25. 14 1148.3 GR 25.70 1161 5 25 .8 1165 9 26. 44 1172 9 27. 04 1194^ 0 27. 40 1195.0 GR 30,54 1216 6 32 .4 1228 1 33 . 69 1244 1 35. 58 1250 55. 58 1250 GR 55.58 1353 • 6 14:43:56 NH 5 03 176.1 07 266.5 03 546.2 . 051 1062.3 . 03 NH 1203 . 6 XI 9C .0 93 . 0 176. 1 266 .5 219.5 204 .7 206.7 GR 20 .5 .0 20 44 1 .8 20.23 9 .0 20 17 15 .9 19 . 71 27.9 GR 19 • 4 40 . 1 19 28 44 . 0 19.36 56 .3 19 11 67 . 1 18 . 64 79.5 GR 18 • 4 86 .8 17 66 102 .6 17.22 113 .5 16 92 135 .5 16 93 147.6 GR 16 . 9 175 . 7 15 69 176 .1 12.09 185 .7 7 12 191 . 1 2 10 196.1 GR 2 . 1 207 . 1 2 11 210 .0 2 . 86 211 .3 5 91 213 9 5 91 214 . 1 GR 5 . 7 224 . 8 5 53 226 .3 2 . 09 232 .3 2 09 234 2 2 09 254 . 7 GR 5 . 1 257 .7 11 45 266 .5 13.05 270 .3 12 92 272 9 12 35 281.1 GR 11 . 3 237 31.3 287 31.3 325 3 95 325 8 75 332.1 GR 8. 15 342 • 0 8 26 371 .5 8.3 375 . 1 9 57 400 29 57 400 GR 29. 57 560 10 25 550 10.30 567 .4 10.9 591 2 11 81 616.5 GR 12 . 02 646 .2 10 30 681 .5 10 . 08 700 . 9 10.3 730 4 10 40 755.2 GR 10. 36 111 • 2 10 58 811 . 8 11.70 822 . 8 12 . 1 326 7 13 75 344 .2 GR 13 . 73 845 . 1 13 46 856 • 4 13.47 858 .7 13 .4 372 5 13 24 879.2 GR 13. 06 899 . 5 13 06 905 .5 13 .44 924 .8 15.5 933 8 16 67 943.5 GR 18 . 43 950 . 6 18 11 969 .3 13.07 971 .4 17.5 993 9 17 94 1002.7 GR 20 . 12 1020 .5 21. 38 1036 • 9 20.79 1053 .7 22 . 0 1062 3 22 97 1070.4 GR 24. 07 1072 .3 25. 44 1076 .0 25 . 68 1076 .4 2E . 5 1080 1 26 01 1095.4 GR 26. 03 1095 . 9 26. 80 1101 9 28 . 80 1119 .2 29.0 1123 3 30 69 1142.3 GR 31. 03 1150 51. 03 1150 51. 08 1203 .5 NH 5 .03 31 .6 .07 156.9 . 03 45C .5 . 051 326 .2 .03 NH 1072 .2 XI 100 . 0 100 .0 81.6 156 9 125.7 114 8 118 . 1 GR 21 . 1 . 0 20. 29 3 6 16.95 12 6 12 . 39 24 5 13 39 32.5 GR 13 .6 36 .7 13 . 42 45 9 13 .19 58 5 13 . 20 75 5 13 03 31.5 GR 10 . 1 85 . 0 3 . 36 93 7 2.25 95 4 2 . 33 104 7 2 90 109.4 GR 3 . 0 113 .8 2 . 33 118 9 2 .33 119 0 2 . 26 138 6 3 89 141.2 GR 7 .3 147 . 1 9. 62 151 8 11.84 156 9 11 . 61 152 3 11. 33 170.0 GR 9 . 8 175 29.8 175 29.8 227 7 . 78 227 7. 68 230.6 GR 3 . 05 248 .0 8 . 1 265 4 7.55 270 37. 55 270 37. 55 325 GR 7. 65 325 0 7. 59 343 0 8.48 363 1 9 . 12 387 5 10. 01 409.4 GR 10 . 6 423 0 11. 23 439 8 11. se 450 5 11. 88 475 0 11. 56 478 .0 GR 9 .8 494 0 9. 37 500 9 9.88 513 4 10. 10 522 7 10. 23 534.8 GR 10 • 6 547 6 12 . 47 562 7 12 . 97 566 9 13 . 50 577 6 12 .2 589.9 GR 11. 74 592 7 11. 69 608 2 11.5 644 2 11. 45 652 0 11. 05 567.9 GR 11. 04 674 3 10 . 97 689 4 10.9 697 3 10 . 78 713 1 10. 81 713.6 GR 12 . 32 736 0 13 . 23 752 3 13.3 758 1 13 . 24 763 4 13 . 14 773 . 8 GR 13 . 07 789 9 13 . 06 792 9 12 . 8 314 0 12 . 95 826. 2 13 . 04 333.9 GR 17. 33 847 2 17 . 58 848 5 17.5 859 9 17. 50 870. 1 17. 57 371.0 GR 20. 17 886 7 20. 77 900 9 20.9 905 2 21. 73 919. 7 21. 94 922 . 6 GR 23 . 72 931 5 23. 36 943 6 22 .6 949 7 25. 19 953. 5 24 . 94 979.5 GR 25 . 62 989 7 26. 80 1002 1 28.4 1017 5 29. 15 1023 . 5 29. 60 1025.7 GR 31. 02 1035 6 32 .7 1043 3 36.15 1055 9 37. 07 1065. 2 38. 17 1072 .2 24JUL02 PAGE NH 5 03 40.7 07 122 . 6 03 275.6 .051 741.8 .03 NH 964 3 XI 110 0 98 . 0 47.4 120 . 1 117 . 7 113 . 6 114.4 GR 19 0 . 0 18 12 1 .8 13 . 91 13 . 1 13 43 14 .6 12 47 23.7 GR 12 4 28 . 3 12 03 40 .7 12 . 06 43 .7 12 06 47 .4 5 97 59.3 GR 2 2 67 . 0 2 24 74 .8 2 .26 98 .5 2 26 103 . 1 2 26 106.5 GR 10 4 119 . 8 10 54 120 . 0 10 .63 120 . 1 10 72 122 6 11 08 131.7 GR 10 1 132 . 7 7 04 136 .6 7 .22 147 . 8 7 29 152 .8 7 73 162.7 GR 8 1 170 . 5 8 26 176 . 3 8 .03 184 . 1 8 08 190 5 8 17 197.3 GR 8 5 210 .6 8 53 213 . 1 8 .05 229 .2 8 01 231 2 8 06 237.0 GR 8 2 256 . 0 3 41 266 .4 3 .31 275 . 6 9 52 279 8 9 93 282 .4 GR 10 8 288 . 0 11 07 290 .5 12 .30 307 .5 12 27 308 0 11 12 322.0 GR 10 2 328 .2 9 46 335 . 0 9 .49 343 .3 9 54 350 9 9 31 368.3 GR 10 5 389 . 1 10 56 391 .6 10 .68 413 .2 10 70 415 3 11 43 440.7 GR 11 4 460 . 1 11 03 480 .7 11 . 08 435 .5 10 54 509 3 10 46 533.2 GR 10 5 536 . 7 10 55 555 .4 10 .36 573 . 9 10 86 578 9 10 80 502 . 0 GR 11 1 624 .4 11 15 626 . 3 11 .17 629 . 0 11 34 648 9 11 76 565.6 GR 12 0 573 . 9 12 45 685 .5 12 .47 695 . 1 13 40 713 6 13 78 720.6 GR 14 2 726 .2 14. 67 736 .4 14 .79 741 . 8 15 04 748 6 15 22 757.1 GR 15 7 768 .2 15. 79 770 .4 15 .35 780 .4 16 53 736 1 17 36 801.7 GR 17 9 812 . 9 18 . 50 820 .8 19 .65 844 . 9 20 29 854 3 20 40 357.9 GR 21 7 880 . 1 21. 69 880 .6 22 . 85 899 .7 23 94 917 6 24 45 927.5 GR 25 6 945 . 6 26. 76 961 .3 27 .06 964 .3 NH 5 . 03 53 .6 . 07 131 .03 169.1 .051 432 .1 .03 NH 943 5 XI 120 0 100 . 0 6C .3 131 .0 182 .6 171 .4 18C .3 GR 28 9 . 0 24 59 9 .2 24 .48 9 .5 14 75 28 9 13 85 39.3 GR 13 6 51 . 8 13 02 53 .6 12 .39 56 .2 11 77 60 3 10 58 65.6 GR 10 4 66 . 4 7. 93 77 .4 5 .50 86 .3 3 51 92 3 2 27 97 .1 GR 2 3 106 .5 2 . 27 118 .2 7 .10 125 .6 9. 54 128 9 10 78 131.0 GR 10 8 141 . 1 10. 83 143 .9 10 .36 154 .3 10. 32 156 3 10 37 169.1 GR 10 3 174 . 5 9. 31 185 . 1 9 .35 195 .4 9. 68 215 0 9 75 217.6 GR 10 2 237 .4 10. 33 239 . 8 10 59 246 . 1 11. 22 255 0 11 42 289.2 GR 11 4 290 . 1 11. 44 294 . 1 11 46 318 . 5 11. 21 338 4 11 08 345.8 GR 10 5 367 .4 10. 51 373 .5 10 .39 390 . 9 10. 63 401 9 10 75 416.6 GR 10 6 424 5 10. 50 441 .0 10 49 443 .3 10. 38 464 6 10 37 465.6 GR 10 1 482 1 10. 06 491 .2 10 07 491 .8 10. 80 519 6 10 80 540.5 GR 11 1 549 8 11. 41 560 .9 11 55 580 .3 11. 75 602 7 11 82 603 .4 GR 12 0 616 5 12 . 31 626 9 12 89 633 2 13 . 26 647 5 13 47 651.2 GR 13 6 670 8 13 . 70 677 5 13 37 693 6 13 . 16 710 1 13 . 51 713.6 GR 13 6 720 3 15. 10 735 3 15 45 738 4 16 . 19 742 8 17. 09 749.7 GR 17 3 753 7 18 . 03 766 3 18 05 767 2 18 . 05 758 9 18 . 16 783.9 GR 18 4 794 0 18. 50 798 6 18 60 805 8 18. 88 817 3 19. 01 822.7 GR 19 4 334 0 20. 06 848 8 20 15 852 1 20. 65 857 0 22 . 60 870.1 GR 24 2 880 7 24. 34 882 1 24 55 884 4 26. 38 897 2 26. 46 899.3 GR 26 9 912 . 9 26 . 86 929 0 25 37 930 4 26. 44 940 8 26. 64 943.5 14:43:55 PAGE NH 5 03 81 05 158.5 03 232 .7 05 355.6 .03 NH 990 XI 130.0 100 . 0 81 158 .5 134.9 127 . 1 12S . 5 GR 32 0 30 5 28 9 26 13 24 15 GR 22 18 20 21 18 24 16 23 14 59 GR 14 71 14 81 12 89 10 92 8 96 GR 5.7 100 6 39 101 .3 2 32 119 .2 2 . 28 141 . 0 2 27 147 .1 GR 3 . 0 149 . 1 5 23 155 .3 6 87 156 .3 11. 36 153 .5 ' 11 33 165.8 GR 11.3 168 .4 11 39 171 . 7 11 80 185 .2 11. 14 194 .9 10 54 200.4 GR 10.5 205 .8 10. 43 215 .5 9 86 225 .2 9. 49 232 .7 9 36 238.6 GR 9.3 243 . 3 9 17 257 .4 9 42 260 . 9 10. 01 271 .6 10 50 285.7 GR 10.6 289 .1 10 48 298 . 9 10 26 311 .2 9. 99 315 .4 9 58 327.4 GR 9.6 334 .6 9 55 346 . 6 9 52 355 . 5 9. 60 361 .6 9 74 372.3 GR 9.9 386 . 7 9 96 406 . 0 10 20 426 . 1 10 .4 436 .7 10 75 447.1 GR 10 . 89 452 .8 11 37 463 . 7 11 50 473 .8 11. 34 499 .0 11 40 512 .4 GR 11 .25 529 .3 11 64 551 . 8 11,0 562 . 1 10. 93 589 . 1 11 12 609.2 GR 11 . 14 612 .5 11 .3 627 . 3 11 45 542 .3 11. 54 648 .4 11 79 661.5 GR 12 . 05 670 . 6 11.8 678 . 6 11 56 689 .6 11. 37 699 . 9 11 90 713 . 9 GR 12 .38 717 . 7 14 .4 732 .5 14 98 737 . 6 15 . 84 750 .5 15 15 757 . 6 GR 15 .38 769 .2 15 . 1 776 . 9 16. 37 794 .4 15. 81 817 .4 17 07 826.4 GR 17.5 841 .6 17 77 360 . 1 18. 77 879 .8 18 . 97 886 . 1 20.8 909.8 GR 21 .13 913 . 9 22 . 13 925 .4 25. 35 937 . 8 25. 99 942 .1 28 .7 956.2 GR 29 .37 963 .9 29. 16 957 .7 27. 95 983 .5 23 .0 988 . 9 27 99 990.0 NH 3 03 67 05 153 .5 . 03 1090 .4 XI 140.0 99 . 0 94 . 8 649 . 9 28C . 0 250 274 .4 GR 20 0 18 44 16 65 15 .5 67 15 44 67.7 GR 15 .32 69 .5 14 . 93 77 . 1 11. 10 94 .8 9 . 0 105 . 9 7 35 110.0 GR 7 .48 117 .9 7 . 10 125 . 5 6. 57 137 .4 5 . 1 147 .8 9 13 153.5 GR 9 .77 155 . 0 9. 71 160 . 6 9. 98 153 . 3 10 .5 170 .4 10 60 174.3 GR 10 .84 179 .8 11. 34 185 . 7 11. 63 192 .4 12 .4 205 . 0 12 57 209.2 GR 12 .50 212 .3 12 . 45 216 . 9 12 . 34 218 . 6 11 . 9 226 .3 11 01 242 .3 GR 10 .59 246 .4 10. 61 250 .9 11. 01 270 . 0 11 .3 286 .6 11 44 293 .4 GR 11 .70 317 .6 11. 89 338 .5 11. 92 346 .2 11 .9 356 .6 12 01 370.1 GR 12 .31 391 . 0 12 . 44 401 .4 12 . 49 420 . 7 12 . 3 443 . 0 12 28 447 . 1 GR 11 .86 471 . 1 11. 55 477 .4 10. 74 495 . 1 10 .5 502 .0 9 37 515.5 GR 9 .55 534 . 8 9. 50 536 .6 8 . 38 553 4 8 .5 561 .0 3 97 570.2 GR 9 .35 577 . 4 9. 80 596 . 8 9. 75 602 0 9 .8 620 .7 9 33 626.0 GR 9 .63 649 . 9 9 . 85 669 .2 9. 98 680 4 10 . 1 595 8 10 28 716.2 GR 10 .23 733 .3 10 . 24 745 .4 10. 43 761 9 10 .6 782 1 10 64 803.1 GR 10 .99 826 . 1 11 . 40 840 . 3 12 . 48 857 6 12 .9 863 4 13 . 89 877.8 GR 13 . 61 893 7 14 . 22 896 .7 15 . 74 899 1 15 . 8 901 9 16. 22 907.1 GR 16 .56 911 3 16. 73 916 .2 16. 87 926 7 17 . 6 942 7 17. 79 948 . 7 GR 17 . 96 956 9 18 . 40 978 .4 18. 44 1004 7 19 .5 1013 7 20. 03 1017.3 GR 20 .31 1035 .5 21. 70 1041 5 22 . 34 1047 9 23 . 1 1058 1 24. 43 1065.8 GR 24 .92 1068 . 0 25. 61 1071 1 27. 85 1082 2 29 . 0 1090 4 24JUL02 PAGE NH 3 03 66.3 05 30.2 03 1133.3 XI 150.0 100 .0 66.3 763 .3 133 .5 90 145.9 GR 20 0 18 13 16 17 14 23 12 32 GR 10 34 E . 5 35 3 77 37 .5 9 92 41 .3 10 .49 42.1 GR 11 83 45 . 0 12 . 9 47 . 0 13 23 49 .2 13 51 51 .4 13 .99 66.3 GR 13 63 71 .2 13.5 71 . 7 11 90 75 . 3 10 24 77 .4 8 .40 80.2 GR 6 73 85 .2 6 .7 89 .2 5 69 102 .8 6 95 109 . 1 7 .82 111.4 GR 10 74 119 .6 11. 8 123 . 1 12 07 125 .7 12 40 136 . 5 12 .23 138 .6 GR 12 26 148 . 8 12 . 3 153 .4 13 77 165 .4 13 36 163 . 9 12 .11 175,6 GR 10 45 136 . 7 10.4 187 .7 10 33 202 .3 10 53 209 .4 11 05 223 .1 GR 11. 19 234 . 9 11.7 259 .3 12 00 271 .2 12 47 285 . 0 13 24 298.6 GR 13 . 45 305 .5 14.0 322 .2 13 99 335 . 1 13 71 344 . 1 13 70 358.2 GR 13 .8 389 .5 15 02 416 .4 13 79 429 .3 14 38 453 . 0 15 12 478.3 GR IE .4 490 .7 13 97 514 .3 13 35 524 . 1 12 69 537 .0 12 58 538.4 GR 11 .6 561 .2 11 21 571 .2 10. 50 590 .6 10 29 599 .3 9 94 608.8 GR 9 .6 535 .8 9 66 637 .5 9. 24 558 .0 3 43 675 .7 8 98 685.1 GR S .4 715 . 1 9. 55 733 .7 9. 91 763 .3 10 01 781 3 10 14 820 .4 GR 10 .6 845 .5 11. 49 373 .3 12 . 74 899 .0 13 24 909 0 13 78 919.8 GR 15 .0 930 .5 15. 24 933 .3 16. 31 947 .7 16. 91 957 0 17 68 966.3 GR 17 .9 972 .6 18. 34 1001 .2 18. 71 1020 . 9 19. 15 1041 5 20.0 1059.9 GR 20. 14 1065 .4 21. 36 1074 . 0 22 . 14 1079 . 7 22 .5 1089 0 24 15 1098.1 GR 24. 61 1100 . 6 24 . 94 1102 .8 27. 46 1116 . 1 28 .4 1122 8 29 78 1133 . 3 NC 03 .03 03 XI 160 .0 100 . 0 126 .2 938 .2 150 .9 95 147 .4 GR 22 0 22 7 20 19 18 25 16 32 GR 14 41 12 48 10 49 5 9 . 6 50 10 37 56.6 GR 11. 89 58 .4 13 . 45 64 . 1 13 .4 54 1 12 . 71 76 0 12 54 81.6 GR 11. 86 98 .2 11. 31 102 .4 11 .6 122 9 11. 28 126 2 9 79 143.5 GR 9. 19 146 .6 8 . 81 149 . 1 7 .5 149 7 6. 32 150 4 6 27 174 .2 GR 6. 27 175 .7 5. 50 177 .5 8 . 9 194 1 9. 34 202 7 10 11 225.5 GR 9. 68 272 .4 9. 66 307 7 9 . 9 321 1 10. 69 333 8 10 00 355.9 GR 10. 39 401 0 10 . 65 422 3 11 .2 447 3 11. 67 485 9 12 07 515.1 GR 12 . 21 524 2 12 575 14 625 15 683 16 687 GR 14 694 12 712 11. 57 720 2 11. 20 740 3 10 74 758 . 8 GR 10. 52 785 4 9. 81 799 6 9. 72 834 9 10. 37 848 5 10 . 6 855.6 GR 10. 02 861 0 9. 50 863 7 8 . 79 865 9 8 .3 871 3 9 45 874.6 GR 9. 97 876 8 10. 21 377 9 10. 97 889 3 10 .9 8 94 7 10. 55 899.7 GR 10. 22 909 4 10 . 00 938 2 10. 46 978 5 10 . 9 997 7 11. 50 1014.2 GR 11. 77 1020 3 12 . 06 1027 3 12 .5 1042 2 12 . 74 1050 0 13 . 40 1065.9 GR 13 . 43 1094 6 13 . 97 1106 0 14 .3 1117 5 15 . 42 1123 0 16 . 51 1129.5 GR 16. 97 1134 4 17 . 1 1136 9 17. 57 1148 3 17. 91 1159 0 18. 01 1164 . 9 GR 18. 91 1177 2 19 . 5 1187 7 19. 67 1189 3 20. 07 1199. 8 20. 73 1204.8 GR 21. 52 1211 5 24 . 30 1228 5 25. 83 1237 0 26 . 56 1244 . 3 28 . 31 1253.7 GR 29 .3 1260 1 30. 01 1264 6 30. 89 1271 7 31. 35 1278 . 9 31, 77 1236.9 24JUL02 14:43:56 PAGE XI 170 .0 96. 0 380.5 1308.2 250.8 215 203 . 0 GR 27 . 1 0 26.72 3.5 24 83 7 8 21 93 11 9 19. 75 18.8 GR 17 .5 31 3 17 . 02 33 . 9 15 71 35 7 14 08 38 .2 14 . 18 39.2 GR 15 .3 45 0 15. 11 45.8 16 34 46 8 17 54 53 5 17. 16 106.1 GR 13 .5 180 7 19.50 212 .5 19 21 215 9 16 68 235 0 16. 60 235.8 GR 16 .2 239 2 15.21 252 .8 14 41 266 1 13 08 233 0 11. 37 297.4 GR 10 . 9 315 5 10.21 332 .4 9 56 364 5 9 28 369 5 3. 51 330.5 GR 8 . 1 385 9 6.22 387.5 6 26 420 7 7 15 427 9 3 . 11 433 .2 GR 3 .4 435 5 9.07 441.9 9 41 452 0 9 93 466 0 10. 81 483 .4 GR 11 . 0 488 4 11.86 522 .2 12 10 549 1 12 87 535 8 13. 26 592 . 5 GR 13 . 7 603 9 14 . 55 524 . 9 15 34 634 2 16 36 642 7 16. 45 644.4 GR 16 .7 659 4 15 .27 685.0 15 53 698 6 15 93 703 5 16. 31 705.0 GR 15 . 9 712 3 14 . 95 754 .2 14 94 817 9 14 .42 940 0 15. 02 1028 . 9 GR 14 .4 1059 8 14 1067 12 1135 10 1225 8. 44 1228 . 9 GR 8 . 43 1236 3 3.5 1251.8 9 33 1253 9 10 .46 1300 .2 10. 89 1303.2 GR 11. 59 1324 1 12 .2 1339.1 12 61 1349 7 13 .74 1430 .6 14. 31 1438.0 GR 15 . 15 1494 9 15.4 1502.9 17 19 1524 2 17 .40 1526 .3 17 . 75 1528.4 GR 13 . 60 1532 2 20.4 1540.7 21 06 1543 9 21 .41 1549 .7 22 . 07 1556.7 GR 22 . 14 1557 2 23.4 1567.3 23 .64 1568 9 24 .08 1571 .5 25. 12 1577.4 GR 26 . 55 1583 3 23 .7 1592.3 29 .64 1598 1 30 .00 1609 .9 31. 62 1617.8 GR 31. 77 1618 9 NH 4 .03 3 92 .2 .06 , 547.1 .045 592.1 .03 1756 .3 XI 180 . 0 96 0 529.3 1516.2 145 100 145 GR 38 .2 0 36 .11 18.6 32 .23 25 7 28 .76 31 .5 26. 56 37.4 GR 23 .4 45 7 21.97 49.0 21 .63 49 1 20 . 62 50 . 1 18.9 51.6 GR 19. 26 57 8 20.32 60.3 22 . 08 64 5 23 .24 67 . 8 25 .2 72.7 GR 26. 11 90 5 26.35 94 .2 25 .10 119 3 23 .72 121 . 0 23 .3 123 . 7 GR 23 . 06 129 7 20.24 138 . 9 17 .70 147 2 17 .50 148 .3 16 . 9 157.5 GR 16. 44 160 8 15.98 179.7 18 192 19 197 19 218 GR 18 222 16 226 14 .33 249 1 14 , 06 294 . 6 13 . 99 377.7 GR 13 . 06 392 2 13.8 485 . 3 12 .81 529 3 10 .32 540 .2 3 . 95 547.1 GR 6 . 31 560 8 6.3 564 . 1 5 . 09 592 1 6 .09 593 .6 8 . 47 597.1 GR 3 . 58 597 8 8 . 9 599.8 9 .63 606 5 10 . 11 616 .4 10. 63 633.6 GR 11. 16 651 5 11 . 6 670.8 11 .68 695 5 12 . 04 724 .3 12 . 55 754.6 GR 12 . 85 795 1 13 .2 318 . 0 13 .51 839 2 15 . 17 882 .5 15. 50 888.2 GR 15. 37 895 4 16 . 5 907.7 17 . 07 915 3 15 .82 937 .4 16. 03 950.4 GR 15 . 74 968 3 15.3 993.4 15 . 13 1013 8 15 .44 1022 . 8 14 .5 1048 GR 14 1073 12 1165 11 1218 10.8 1255 11 1290 GR 11.8 1350 11 1412 10 .68 1435 3 11 .20 1452 . 1 9 83 1460.5 GR 8 . 48 1463 . 1 9.1 1466.8 10 .56 1468 9 10 . 88 1485 .7 11. 18 1500.9 GR 11. 93 1508 . 3 12 . 7 1515.2 14 .00 1526 2 15 . 39 1535 . 1 15. 71 1601.3 GR 15 . 90 1732 . 1 15 . 8 1736.3 17 .17 1739 0 18 .53 1746 . 3 19 80 1751.0 GR 21. 00 1756 .3 NH 4 03 449. 9 .06 623 . 045 676 03 171E .4 XI 190.0 100 . 0 612.7 676 130 130 130 GR 31.3 .0 30.25 11.9 29 .86 15 1 23 .60 21 .9 28 .2 24.1 OR 26 17 30 , 4 25,81 31-9 25. 3 32 1 22 . 77 33 .6 22 84 34.5 GR 23 . 24 39 .4 25.02 42 . 8 25 . 17 43 8 26 .54 52 .9 27 51 59.3 GR 27 . 57 72 .3 27.0 79.4 26 .55 82 2 26 .27 89 .6 25 30 103.0 n 24JUL02 PAGE 10 GR 25.87 112 7 24 .0 120 8 23 39 121 6 23 .22 124 3 21 35 133.9 GR 20.77 142 2 20 .7 142 9 18 19 160 0 17 .66 302 9 18 02 345.4 GR 17.36 352 2 16 . 9 365 0 17 05 359 4 13 .49 372 8 13 53 373.9 GR 13 .29 382 7 15 a 401 5 12 97 414 7 12 .83 421 9 12 14 449.9 GR 12 .54 474 0 13 .2 493 0 13 47 506 6 13 . 14 565 7 13 45 587.3 GR 13 . 72 597 6 14 . 1 612 7 12 623 10 628 8 633 GR 6 . 72 636 5 .4 670 12 676 14 .00 697 0 13 68 702.6 GR 13 .4 705 1 12 . 95 714 5 13 01 727 0 12 .38 743 0 12 20 751.0 GR 11 . 8 778 1 11. 86 796 1 12 .68 884 1 12 .96 917 4 13 77 938 . 1 GR 14 . 0 947 1 14. 68 950 5 15 .01 980 7 14 .36 1023 4 14 14 1052.6 GR 14 .4 1113 1 15 . 23 1118 9 15 .83 1126 4 14 . 90 1158 2 14 55 1193.2 GR 15 .3 1257 0 15. 30 1294 9 15 .70 1368 7 15 .34 1397 6 14 49 1423.3 GR 13 . 9 1450 4 13 . 77 1485 4 14 .63 1505 6 14 . 59 1508 1 14 86 1512.3 GR 15 .5 1532 2 15 . 27 1577 4 16 .36 1590 3 15 .93 1598 3 17 10 1602.2 GR 17 . 7 1619 6 17 . 99 1623 2 13 .57 1633 1 19 . 10 1639 9 23 30 1658.2 GR 24 . 0 1662 0 24 . 28 1666 5 25 . 17 1630 2 25 .55 1701 3 25 73 1715.4 NC . 03 . 03 . 045 XI 200 . 0 100 0 721 .4 790 0 150 162 160 GR 33 .3 0 31. 62 3 8 30 .67 7 2 29 .24 14 3 29 12 49.4 GR 29 . 8 75 0 30. 24 106 0 30 .33 109 1 31 .02 137 1 29 41 175.7 GR 23 .4 183 8 28 . 20 186 1 26 .12 205 4 25 .83 207 3 25 35 213.1 GR 24 .5 231 .7 22 . 90 251 0 22 .32 257 3 21 .92 264 7 21 65 269.7 GR 21 .4 274 .3 21. 05 278 5 20 45 233 9 20 .31 284 7 20 09 285.8 GR 19 .8 287 . 9 19. 18 291 3 18 .90 294 6 18 .80 296 0 17 50 311.1 GR 16 . 3 325 . 6 15 . 29 ,340 3 14 .54 365 1 14 .06 382 6 13 33 390.3 GR 13 . 6 394 . 0 12 . 97 401 1 12 . 19 644 3 13 .58 667 2 14 22 676.7 GR 13 . 7 721 .4 11. 87 732 7 11 .41 734 5 10 .25 742 3 10 25 742.3 GR 9 . 3 743 .2 7 . 64 743 9 7 .24 744 3 6 .79 780 9 9 49 781.8 GR 10 . 0 782 .0 10. 79 738 4 11 . 04 790 0 11 .24 799 8 11 75 312.9 GR 12 . 1 828 .6 12 . 53 899 2 13 . 15 933 5 13 . 07 995 2 12 84 1001.9 GR 12 .4 1002 .2 11. 73 1017 1 12 . 01 1107 6 13 .31 1112 6 13 60 1118.7 GR 13 . 7 1120 5 14 . 44 1141 4 15 .36 1158 3 16 .35 1176 3 16 73 1205.0 GR 15 .6 1209 .0 14 . 78 1211 5 14 .41 1231 4 15 .45 1278 4 16 01 1343.3 GR 16 .2 1365 4 16. 51 1424 1 17 .29 1426 1 17 .76 1427 8 16 91 1440.1 GR 16 .3 1454 9 15 . 95 1459 2 15 .84 1467 6 15 .37 1520 2 14 95 1562.3 GR 14 . 1 1572 3 13 . 90 1587 5 14 .87 1622 7 15 .20 1636 0 16 27 1646.5 GR 19 . 0 1665 2 20 . 40 1574 9 22 .72 1696 1 23 .01 1699 5 23 51 1707.1 GR 24 .8 1727 5 25 . 44 1737 9 25 .55 1748 3 26 .24 1790 1 26 12 1791.1 XI 210 . 0 96 0 717 . 1 374 0 158 . 1 198 6 176.5 GR 33 .7 0 30. 26 8 5 29 . 69 10 0 30 .22 21 8 31 39 30.3 GR 30 . 9 59 .5 31. 90 106 9 32 .59 119 6 32 .73 120 8 33 22 125.2 GR 33 .6 128 .2 33 . 83 129 8 34 .45 134 2 34 .74 149 0 34 67 150.7 GR 33 . 1 161 . 0 29. 95 176 9 29 .61 180 7 29 .25 185 3 28 47 192 .8 GR 25 . 7 215 .2 24 . 76 220 5 23 .55 235 1 23 .27 238 0 22 61 247 . 9 GR 22 . 1 255 .6 21. 57 279 8 20 .63 290 8 20 .19 295 8 18 60 313.5 GR 17 .8 322 . 0 17. 50 327 5 16 .04 355 1 15 .20 375 6 14 42 393.6 GR 14 .2 398 . 1 13 . 86 403 B 13 .40 409 1 12 - 74 416 7 12 17 423-4 GR 12 . 1 547 .3 12 . 55 632 8 13 .51 639 8 13 .63 648 9 15 40 675.2 GR 15 . 6 679 .9 15. 98 685 9 16 .68 695 6 16 .68 707 6 16 73 717 .1 24JUL02 PAGE GR 15. 7 725 . 5 15 . 32 728 9 14 . 06 735 0 13 . 60 738 5 10 85 753 7 GR 9. 2 761. 1 8 . 12 769 0 7 . 63 773 2 7, 28 795 8 9 09 796 9 GR 10 9 798 . 1 11. 59 303 9 12 . 51 808 8 14 . 10 324 9 14 56 830 1 GR 15 0 839. 2 15 . 90 860 0 16 . 85 374 0 17. 23 399 9 16 06 913 6 GR 15 4 994. 1 15 . 15 1009 5 14 . 48 1029 5 14 . 03 1047 8 13 53 1091 1 GR 13 1 1100. 9 12 . 45 1102 5 11 . 81 1191 7 13. 50 1236 5 13 76 1253 2 GR 14 3 1320. 1 15 . 22 1351 0 15. 80 1371 3 15. 91 1384 4 16 50 1433 8 GR 16 7 1578 3 17. 33 1600 3 18 . 01 1605 3 20. 36 1521 5 21 39 1532 5 GR 22 7 1639 1 22 . 94 1640 7 23 . 14 1646 6 24 . 00 1561 9 24 39 1668 9 GR 24 5 1673 0 XI 220 0 95 0 750.8 838 17C . 0 190 3 18C .7 GR 45 8 0 33 19 9 5 37. 14 16 1 36. 79 17 1 36 65 19 1 GR 35 3 34 0 35 01 37 2 34 . 71 40 3 34. 48 43 1 34 12 47 0 GR 33 4 94 9 34 79 135 3 35 55 147 5 36. 06 154 7 35 19 156 4 GR 36 8 167 8 36 68 178 0 34 25 187 6 31. 56 200 4 31 45 202 3 GR 31 0 211 2 29 90 219 2 28 57 225 6 26. 07 234 6 25 79 236 2 GR 23 9 241 4 20 97 257 7 19 46 254 6 18 99 257 4 19 23 267 7 GR 18 3 282 7 18 21 290 5 17 60 303 5 17 31 308 5 16 91 320 1 GR 15 4 336 7 16 26 339 5 15 75 363 9 15 52 380 4 15 33 408 1 GR 14 8 415 0 14 55 ill 6 14 41 419 5 13 89 422 8 12 11 434 4 GR 12 1 671 1 12 77 578 6 14 49 687 0 14 95 693 1 15 22 697 3 GR 15 3 699 3 16 70 713 4 16 14 737 8 15 88 738 7 14 70 742 3 GR 14 8 745 1 13 48 750 3 9 94 763 7 9 35 766 6 8 45 770 2 GR 8 1 794 2 8 05 798 6 9 50 804 8 13 40 819 2 13 65 820 2 GR 16 830 18 833 18 858 16 856 14 98 925 5 GR 14 4 982 1 13 61 1004 8 14 70 1035 7 14 09 1070 4 13 65 1030 4 GR 13 4 1091 9 13 24 1092 6 12 20 1094 8 12 38 1148 0 11 96 1209 3 GR 13 2 1216 8 13 87 1233 3 14 36 1247 1 14 27 1258 7 15 43 1277 5 GR 15 1 1296 2 15 16 1362 1 16 93 1393 0 17 44 1416 0 17 46 1543 2 GR 18 1 1560 3 18 36 1562 3 19 40 1570 1 22 06 1591 3 22 32 1593 8 XI 230 0 99 0 721. 0 819 3 160.3 167 3 16: .7 GR 49 0 0 47 93 3 0 47 30 5 1 45 04 8 1 40 62 13 2 GR 41 1 13 8 38 58 36 5 38 57 36 6 38 52 36 9 36 09 49 4 GR 35 4 101 4 37 16 149 2 38 16 162 9 37 11 185 0 34 93 194 8 GR 34 . 9 196 5 34 24 204 8 32 11 210 9 32 01 211 1 31 07 223 2 GR 25 . 9 242 1 24 91 245 2 24 53 245 8 24 64 247 6 21 43 264 9 GR 20 . 5 269 7 19 85 274 4 19 35 278 5 19 07 280 5 18 26 302 2 GR 18 . 1 307 5 17 12 325 8 16 66 354 9 16 22 371 0 15 31 3 92 3 GR 14 . 9 408 9 14 57 427 0 13 99 430 9 13 43 434 5 13 22 435 9 GR 12 . 1 443 1 12 12 541 4 12 12 610 9 12 65 622 9 14 34 634 1 GR 14 .7 635 3 15 38 650 7 15 86 654 7 16 96 668 3 17 13 673 6 GR 16 . 0 707 .8 15 24 712 1 13 89 719 1 13 63 721 0 13 23 722 5 GR 12 .5 724 . 9 10 07 734 .2 8 36 739 6 3 20 765 9 8 19 767 6 GR 8 .2 763 . 9 8 61 770 4 11 36 780 2 14 02 799 1 15 04 805 6 GR 15 .2 808 .8 15 75 819 .3 16 19 827 5 16 53 852 5 16 16 864 7 GR 15 .5 874 . 0 14 84 877 . 9 14 96 895 9 14 77 913 9 14 52 924 6 GR 14 .5 946 . 1 15 62 965 .3 15 94 971 2 16 12 998 0 16 96 1026 4 GR 17 , 0 1 (T?n f. 14 92 1 (1^7 7 14 89 1 O'^R 7 15 80 1 OHB 5 15 64 Ills 7 GR 14 . 9 1152 .5 14 30 1233 . 1 15 75 1308 .4 16 08 1311 1 16 90 1329 0 GR 17 .5 1347 . 0 17 44 1449 . 3 18 58 1451 5 13 52 1520 4 20 18 1536 3 24JUL02 14:43:56 PAGE 12 GR 21. 4 1545 . 6 22 . 15 1548 . 3 22 . 59 1549 7 22 . 71 1555 4 XI 240. 0 98. 0 -670 .4 784 1 177 .9 195 1 185 .8 GR 48 6 0 47 . 20 2 2 45. 59 4 6 44 . 86 6 1 42 43 10 4 GR 42 2 19. 0 41 . 48 21 5 41. 06 23 1 40 . 59 25 1 39 54 28 7 GR 38 9 49. 5 38 . 57 59 3 37. 32 130 9 37 . 73 182 7 36 55 185 3 GR 35 8 137 6 34 . 50 192 5 33 . 04 199 0 30. 64 207 3 30 22 210 1 GR 29 6 220 5 25. 10 244 1 24. 66 246 1 24 . 39 246 9 22 63 254 5 GR 21 4 266 8 20. 43 277 2 19. 77 279 5 19. 66 232 0 19 01 301 3 GR 18 6 309 1 17 . 80 321 6 17 . 59 327 4 17. 33 335 7 16 90 347 1 GR 16 1 370 8 15. 97 376 7 15. 74 392 5 15. 17 421 9 14 86 434 6 GR 15 9 518 7 16. 19 522 2 17. 70 545 8 17 . 58 556 0 16 72 586 4 GR 16 4 589 5 15. 59 606 8 15. 11 619 8 14 . 52 633 3 14 13 658 6 GR 14 0 670 4 13 . 31 673 9 12 . 53 679 0 8 . 82 580 6 3 83 689 5 GR 3 9 740 5 9. 30 741 7 10. 47 743 5 12 . 04 753 9 12 80 760 2 GR 12 9 761 5 13 . 67 771 9 14. 60 784 1 14 . 51 832 3 14 96 945 3 GR 15 6 1003 6 16. 01 1011 9 16 1020 15 1045 16 80 1068 5 GR 17.21 1099 9 17 .4 1127 1 18. 00 1141 5 18. 33 1152 2 17 51 1221 8 GR 16.58 1245 1 15 .3 1253 1 15. 69 1264 3 15 . 21 1285 5 15 78 1347 2 GR 17 .16 1371 2 17 .3 1394 9 16 . 19 1418 7 16. 15 1419 9 16 21 1421 5 GR 18 .13 1442 3 18 .3 1444 4 18 . 85 1464 2 19. 38 1467 9 19 97 1470 9 GR 20.86 1471 6 21 .0 1477 5 21. 62 1477 8 22 . 14 1481 9 22 41 1434 0 GR 22.89 1484 3 23 . 6 1437 9 24 . 47 1490 2 XI 250 0 93 0 569 . 0 753 7 119.2 116 5 Ill . 9 GR 43 1 0 39 . 76 6 9 38 90 113 8 39. 79 126 1 40 95 137 4 GR 41 0 143 8 40 . 34 155 1 39 71 162 4 39. 32 165 1 36 61 173 6 GR 31 3 189 6 29. 69 197 3 27 66 203 9 27. 63 208 9 27 57 212 8 GR 26 3 216 5 23 . 93 224 5 23 20 226 6 22 67 229 9 21 97 237 3 GR 20 5 251 4 19. 30 266 5 18 94 271 0 18 15 281 4 17 67 297 9 GR 17 2 321 9 15. 66 329 4 16 23 393 7 16 45 503 8 13 23 532 6 GR 13 7 544 8 19. 11 558 5 17 18 578 8 16 26 587 1 15 09 602 9 GR 14 3 618 4 14 . 65 625 6 14 43 633 7 13 98 652 9 13 93 655 3 GR 13 7 661 4 12 . 99 667 0 12 75 659 0 11 76 676 2 11 78 677 0 GR 11 1 677 3 8 . 82 678 2 9 04 593 7 9 47 718 0 11 00 721 5 GR 11 2 722 3 11. 57 725 2 12 19 731 6 12 74 734 6 14 08 743 8 GR 14 5 746 6 14 . 94 753 7 14 56 111 7 14 53 776 3 14 58 778 1 GR 15 4 802 2 15. 70 831 5 15 74 833 3 16 24 351 9 16 55 859 0 GR 15 6 876 2 15. 51 835 4 15 65 897 5 16 00 911 7 16 44 913 2 GR 16 5 932 7 16. 16 946 8 15 79 956 0 15 42 998 5 16 69 1064 5 GR 18 2 1071 0 21. 09 1087 7 22 17 1095 5 21 82 1134 2 22 52 1210 7 GR 20 5 1221 7 19. 51 1229 6 19 09 1233 7 18 48 1238 2 16 72 1253 2 GR 16 2 1276 8 17 48 1300 6 18 92 1312 5 20 72 1319 5 21 04 1321 4 GR 23 5 1338 1 23 97 1363 0 24 02 1368 1 XI 260 . 0 83 .0 670 . 9 734 3 93 .2 97 9 94.6 GR 50 .3 . 0 49 77 1 .0 47 15 7 5 46 65 9 1 42 97 15 1 GR 39 .9 19 .9 40 01 59 . 0 40 69 79 .3 41 26 109 3 41 43 117 5 GR 41 , 9 127 . 9 42 12 130 , 4 41 41 143 4 43 79 1 0 43 47 154 B GR 41 .3 167 .8 41 68 169 .5 41 12 177 .0 40 10 179 5 37 20 186 5 GR 33 .8 197 .0 30 43 208 .5 26 44 223 .2 25 99 225 . 1 25 68 235 0 24JUL02 14:43:56 PAGE 13 GR 22 .4 247 .2 21 78 250 .6 20 .39 250 ,2 . 19 .63 267 .4 19 .58 279.0 GR 20 .2 333 .2 19 31 372 . 9 18 .42 399 .6 17 .49 421 .4 17 .84 452 . 3 GR 17 .7 514 .7 16 96 605 . 6 16 .59 613 . 1 16 . 04 624 . 3 15 . 62 638 .5 GR 14 .3 658 .7 13 23 670 . 9 12 .75 574 . 8 10 . 99 677 .8 9 .55 678.7 GR 9 .6 693 .4 9 54 720 . 4 10 .44 721 . 1 12 . 04 723 .2 13 . 98 734 .3 GR 14 .3 740 .3 14 80 755 .8 15 39 803 .2 15 .67 806 . 6 17 .90 833 . 7 GR 18 .2 348 .4 18 78 856 , 7 19 14 873 . 7 19 .45 881 . 9 19 . 32 835.6 GR 20 .4 397 . 9 20 45 944 .5 19 82 956 . 0 19 .40 958 . 0 19 .23 959.0 GR 19 2 980 .2 19 20 981 3 20 77 988 .9 21 . 15 989 . 9 21 .61 992 .4 GR 21 8 993 . 8 22 47 997 9 22 01 1001 .3 19 86 1013 .8 18 .27 1024.5 GR 17 8 1035 . 1 17 41 1043 9 17 20 1055 .2 17 .11 1069 . 7 16 .35 1090.0 GR 16 0 1095 .8 17 01 1114 3 18 13 1129 . 0 18 22 1133 .4 19 .05 1141.0 GR 19 8 1152 .7 20 49 1174 2 20 83 1188 . 8 ET 9 . 1 1 1133.8 NH S . 03 625 . 9 . 045 745.0 . 03 793 .3 . 04 998 . 6 . 03 NH 1138 8 XI 270 0 95 .0 625.9 745 0 76.1 83 6 30.5 GR 55 0 .0 53 92 2 5 53 62 3 4 47 36 14 5 44 20 20.3 GR 43 5 21 .7 40 76 27 4 40 58 31 2 41 28 42 4 41 36 45.0 GR 41 9 52 . 9 42 20 57 4 42 43 61 6 42 32 77 1 42 37 98.5 GR 43 2 99 .4 43 28 99 7 43 49 100 4 43 45 172 7 42 42 187.7 GR 42 3 189 0 41 97 190 0 35 75 209 8 32 00 221 3 28 26 233.7 GR 25 5 241 8 24 83 245 3 24 95 250 7 24 47 259 1 22 83 259.6 GR 22 4 272 4 22 36 272 7 21 73 232 9 22 48 315 8 23 13 320. 9 GR 23 6 339 3 23 24 346 8 22 08 351 8 22 52 361 3 22 13 375.9 GR 21 2 390 2 20 93 393 6 20 53 397 5 20 53 398 8 19 95 406.4 GR 19 8 410 3 18 32 441 1 18 22 519 9 18 64 566 3 18 28 625.9 GR 16 5 641 7 15 39 651 1 13 43 663 1 12 20 677 6 9 37 591.7 GR 9 3 692 1 9 29 692 9 9 44 702 8 9 34 716 2 15 85 745.0 GR 16 2 751 2 16 23 759 8 16 59 774 5 16 66 775 1 15 83 775 . 9 GR 17 2 111 5 17 36 778 0 17 60 779 1 17 99 .780 5 18 33 793.3 GR 17 5 812 0 17 55 834 7 17 23 846 6 17 00 354 9 17 31 873.0 GR 17 8 832 2 18 08 911 7 18 03 916 9 17 25 943 4 17 20 945.0 GR 17 2 947 3 15. 80 979 0 15. 30 979 2 16 16 998 5 16. 51 1008.7 GR 16 3 1010 8 16 84 1018 3 16. 82 1040 4 16. 87 1045 7 17 . 98 1075.4 GR 18 3 1080 4 18 . 75 1087 0 19. 95 1099 4 19. 95 1137 3 19. 95 1138.8 ET 9 1 1 1108.4 NH 7 . 03 532 . 3 . 045 746 . 0 . 03 801 .4 . 04 992 .2 . 03 NH 1062 6 .015 1089 .2 . 03 1108 .4 XI 280 0 94 0 632 .3 746 0 50 . 9 50. 7 50 .5 GR 51 7 0 47 . 64 9. 5 47. 33 10. 6 44 . 28 16 0 42 . 84 18 . 5 GR 42 4 20 3 41. 08 31. 5 42 . 32 39. 3 43 . 17 45. 7 44 . 29 51. 9 GR 45 0 86 6 43. 56 200 . 7 43 . 17 202 . 3 41 . 79 207. 4 33 . 84 215.7 GR 35 7 224 3 33 . 77 230 . 4 28. 84 243 . 5 26. 18 250. 8 24 . 99 256.8 GR 24 5 258 6 24 . 15 269. 3 23. 31 271. 7 23. 26 281. 1 23. 74 355.1 GR 22 4 359 0 22 . 00 351. 3 21. 66 377 . 3 21. 10 337. 3 20. 63 402 .2 GR 20 3 406 0 19. 75 411. 2 19. 20 413. 6 18. 71 431. 4 18. 15 447.4 GR 17. 7 463 1 18. 01 547 . n 16 . 73 632 . 3 16 . 32 636 , 3 1 4 . fil 660 . 2 GR 13 . 9 656 7 11. 65 683 . 0 11. 01 685. 3 9. 68 694 . 4 9. 34 724 . 6 GR 9. 3 726 1 9. 57 726. 8 12 . 37 738 . 8 13 . 72 740. 3 15 . 79 746.0 14:43:55 PAGE GR 16 . 1 757 . 3 16. 33 766 2 17. 81 779 2 13. 24 801 4 18. 18 326 7 GR 16. 9 834 . 6 16 . 32 838 1 15. 30 842 7 15. 73 845 3 14. 77 354 7 GR 12 . 7 872 2 13. 00 876 6 13 . 55 902 5 14. 36 944 5 13 . 39 974 8 GR 12 . 1 992 2 12 . 53 999 0 12 . 89 1001 4 17 . 29 1002 0 17. 22 1009 2 GR 17. 2 1013 5 14 . 21 1014 2 14 . 38 1014 8 16 . 04 1025 0 16. 53 1023 1 GR 16 9 1030 6 17 . 44 1033 3 17. 99 1037 3 18 . 22 1038 7 18 . 39 1045 4 GR 19 3 1048 2 18 . 35 1057 2 17. 80 1062 5 17. 33 1065 1 16. 96 1067 1 GR 16 5 1068 4 12 . 66 1079 9 12 . 70 1080 4 12 . 73 1080 7 15. 27 1087 4 GR 18 4 1039 2 19. 36 1089 3 20 . 19 1106 1 20. 23 1108 4 ET 9 1 1 853 3 NH 4 .03 276 .9 .045 367.8 .03 805 .5 .015 853 . 3 XI 290 0 98 0 276 .9 367 8 335 .4 325 2 33C .3 GR 22 0 0 21. 65 5 1 21. 61 5 3 21. 30 3 3 20. 45 17 5 GR 20 3 18 8 20. 16 20 4 20. 08 21 6 11. 82 47 4 17. 71 50 6 GR 17 5 53 6 17. 19 66 1 16. 49 81 3 16. 48 32 7 16. 25 109 6 GR 16 2 121 3 16. 09 149 6 15. 57 159 3 15 . 69 162 4 15. 78 175 0 GR 15 9 192 1 15. 94 204 1 16. 07 212 5 16 . 60 229 5 16. 93 239 3 GR 17 0 239 8 17 . 36 250 2 17. 70 259 3 17 . 73 263 6 17. 76 273 2 GR 17 7 275 9 17 . 35 280 1 15 . 69 289 0 14 . 63 298 9 13 . 73 304 5 GR 11 1 319 4 10. 30 324 6 9. 60 328 4 10. 40 349 2 10 . 46 351 1 GR 10 8 351 7 14 . 41 366 4 14 . 54 357 8 14 . 74 375 8 14. 74 388 7 GR 15 1 399 2 15. 23 403 1 15. 49 418 5 15. 29 430 6 16. 02 460 1 GR 16 1 465 3 15 10 467 3 16. 41 478 7 16. 52 517 0 16 . 30 539 6 GR 16 1 548 5 15 26 555 0 16. 61 564 2 16 57 572 1 16. 88 593 6 GR 16 9 593 3 17 23 509 3 17. 44 616 7 17 76 623 2 17. 78 625 4 GR 18 0 636 2 18 06 640 5 18 44 655 9 18 52 654 6 13 . 64 667 8 GR 18 8 679 3 18 54 694 1 18 23 700 5 18 17 725 5 18 . 30 733 2 GR 18 8 757 1 19 13 770 9 19 14 773 2 18 96 735 0 20. 39 799 0 GR 20 3 805 5 20 46 810 7 19 79 816 1 19 65 817 2 19 32 820 2 GR 18 6 827 4 18 19 830 4 18 15 830 4 17 77 331 3 17 21 832 7 GR 16 3 833 5 14 56 833 7 16 20 342 6 18 44 847 7 22 81 849 2 GR 23 1 849 2 23 16 349 9 23 16 353 3 NC . 03 .03 . 045 XI 300 0 92 0 181.5 276 3 382 .5 391 0 387.2 GR 25 6 0 25 62 2 9 25 62 3 5 24 55 7 4 23 80 9 3 GR 22 8 14 8 19 72 27 1 18 96 31 8 19 05 43 5 18 92 51 3 GR 13 0 70 8 17 60 75 1 17 53 75 8 17 50 94 3 17 93 103 3 GR 13 1 106 8 19 42 129 4 19 58 132 9 19 89 142 8 19 93 155 3 GR 19 7 165 3 19 57 167 8 19 48 159 3 19 41 170 4 19 35 171 3 GR 19 2 181 5 17 56 191 5 16 48 196 2 15 00 197 7 14 73 204 3 GR 13 2 212 2 13 10 212 3 10 45 220 .3 10 69 237 2 10 74 243 3 GR 13 4 252 3 13 66 253 6 14 85 262 .6 15 01 265 1 15 74 275 3 GR 15 8 276 .3 15 97 277 9 16 17 234 .1 16 47 304 7 16 53 309 8 GR 16 . 6 313 .9 16 85 324 .7 16 87 336 .2 16 88 337 6 17 37 366 2 GR 17 .4 365 .5 17 38 367 3 17 72 394 . 0 17 75 411 2 17 43 419 7 GR 17 .4 422 .3 17 46 426 .2 17 79 432 . 1 17 81 432 6 17 97 464 0 GR 17 .9 498 .0 17 84 533 .0 18 23 539 .8 18 27 541 0 18 57 550 6 GR IS , 6 560 , 8 18 76 564 . 8 19 09 575 . 3 1 Q 1 n 534 1 1 9 1 1 586 s GR 20 . 0 616 .2 20 07 617 . 7 19 70 619 .2 19 84 623 7 19 92 627 7 GR 20 .4 649 .2 20 41 551 . 8 20 55 657 . 1 20 55 660 8 21 05 676 2 I 24JUL02 14 :43 :56 PAGE 15 GR 21. 2 683 . 6 20. 94 636 4 21. 78 703 7 21. 73 710 9 21 72 714 .4 mt GR 20 . 6 733. 3 20. 66 735 1 21. 33 743 7 33. 22 763 9 33 99 765 .9 • 35 . 3 768 . 7 35. 30 768 7 310. 0 96 . 0 343 . 8 392 2 354 .4 353 6 358 .2 • GR 29. 4 0 24 . 56 14 1 23 . 89 15 8 23 . 37 21 7 22 09 32 .8 GR 22 . 2 43 . 7 22 . 04 44 5 19. 75 51 4 19. 71 53 3 19 44 80 .8 • GR 19. 3 92 . 7 19. 29 107 5 18 . 86 121 4 18 . 72 124 5 18 53 129 . 0 B GR 18 5 139. 0 18 . 87 148 9 18 . 92 149 8 19. 38 163 0 19 44 169 .7 GR 19. 4 185. 2 19. 74 194 6 20. 02 238 7 19. 99 249 0 18 31 263 .9 _ GR 18 1 269 1 18. 15 276 7 17. 80 290 8 17. 77 292 5 17 79 303 .2 1 GR 17 0 316 1 16. 79 320 2 16. 71 323 1 16. 50 325 8 15 12 343 .8 " GR 14 3 345 0 12 . 80 351 6 11. 69 356 2 11. 54 356 5 11 53 350 .7 GR 11 6 330 5 12 . 73 383 9 13 . 39 387 4 14 . 94 3 92 2 15 58 406 .9 • GR 15 7 422 3 15. 86 447 4 16. 16 455 5 16. 35 462 7 16 24 493 .3 •1 GR 16 6 516 0 16 64 524 7 16. 16 548 1 16 . 24 552 3 16 39 553 .3 GR 16 6 556 3 17 07 535 5 17. 09 587 5 16. 92 619 9 16 73 621 .0 mm GR 16 7 622 3 17. 38 653 9 16. 93 557 4 16. 99 657 6 17 27 665 .4 H 17 9 678 8 17 89 639 4 18 . 19 705 5 13 . 23 707 5 18 51 720 .1 GR 18 5 721 5 18 66 727 2 19. 01 747 0 18 . 95 749 9 19 14 762 ,8 GR 19 4 777 9 19. 62 777 9 19. 85 778 3 19. 85 788 5 19 94 798 .9 • GR 20 3 815 0 20. 29 816 4 20. 52 820 1 20. 85 825 9 20 95 827 .6 9 GR 21 6 833 4 21. 87 842 5 24 . 60 859 0 25. 69 368 5 25 81 869 .7 GR 25 4 877 0 25 24 830 5 25. 17 885 9 30. 90 910 5 31 02 911 . 1 Wt GR 39 9 927 7 320 0 97 0 344.3 471 7 341.8 342 0 338 . 9 fl GR 27 7 0 27 50 3 27 10 2 2 26. 59 4 7 25 54 4 .9 GR 26 3 8 8 25 95 12 1 25 24 15 7 23 . 85 20 2 22 54 24 .2 GR 22 2 34 3 22 15 34 8 22 13 34 8 21. 55 42 5 21 63 50 .5 1 GR 21 4 80 1 21 45 107 8 21 45 108 0 22 . 18 113 1 22 17 115 .9 V GR 22 8 122 4 22 60 133 9 22 46 139 0 22 . 58 156 9 21 97 164 .7 GR 21 8 170 7 21 68 200 4 21 32 217 9 21. 42 223 2 21 47 236 .1 M GR 21 9 245 3 22 33 258 5 22 44 264 4 22 . 49 267 9 22 69 271 .9 23 4 288 1 23 74 295 0 23 58 302 6 23 . 62 311 2 23 31 318 .2 GR 23 0 326 9 22 41 333 8 20 53 344 3 19. 35 347 4 19 68 349 . 1 17 3 367 6 16 79 371 1 16 74 371 4 14 . 07 387 8 13 04 394 .6 1 GR 12 9 395 0 12 90 400 4 12 75 406 9 12 . 53 421 0 14 63 428 .6 " GR 15 9 435 5 16 45 437 6 16 57 438 5 16. 55 439 5 17 02 443 .6 GR 17 9 453 3 18 02 456 2 18 31 458 5 19 66 471 7 20 29 479 . 0 20 4 500 2 20 19 503 3 19 44 514 9 19 78 531 7 19 89 543 . 9 B GR 19 9 546 2 19 09 554 6 18 60 559 9 18 43 592 0 18 49 609 . 0 GR 18 6 618 5 18 84 633 3 18 91 634 8 19 23 659 5 19 30 664 .4 a GR 19 5 670 0 19 59 675 7 19 73 689 3 20 04 703 5 19 89 765 .3 fl GR 19 9 772 3 19 90 781 2 20 18 805 8 21 03 825 0 21 23 832 .7 GR 21 8 837 2 22 31 844 0 23 33 846 1 29 80 872 5 35 32 885 .3 GR 40 6 895 6 42 65 901 5 14:43:56 PAGE 16 XI 330. 0 95. 0 305 .1 376 2 268 . 1 268. 1 265 . 7 GR 26. 8 0 25 . 28 4 5 21. 74 15 1 21. 65 17 6 21 19 32 .4 GR 21. 1 38 . 1 20. 89 54 1 20. 19 62. 3 19. 40 77 7 19 45 83 .5 GR 19. 7 110. 6 19. 58 136 3 19. 93 157 7 19. 74 198 3 19 59 233 .5 GR 19. 3 252 . 2 19. 00 265 9 19 . 62 282 0 20 . 40 293 9 20 16 305 .1 GR 19. 8 308. 1 19. 53 309 0 18 . 03 313 5 18. 03 313 5 15 11 319.3 GR 15. 2 323 . 3 14 . 01 325 8 13 . 16 327 5 13 . 15 340 9 13 12 353 . 0 GR 13 . 7 356. 0 15 . 45 361 8 15 . 58 363 6 16 . 40 367 5 16 41 357.7 GR 13 . 2 374 . 2 18 . 27 376 2 18 . 84 379 5 18 . 71 393 8 19 01 416.5 GR 19. 0 423. 4 19. 54 435 0 19. 55 447 0 19. 37 484 3 19 89 494 . 9 GR 20. 3 504 . 9 19. 63 541 3 19. 36 542 3 18. 94 543 9 13 73 544 . 8 GR 13. 4 546. 2 18 . 24 546 7 17 . 92 548 2 17 . 32 548 6 16 59 552.6 GR 17 4 555. 3 17. 25 555 5 17 . 45 555 8 21. 56 556 3 21 57 556.3 GR 21 5 560 8 20 . 97 561 0 18 . 39 561 5 18. 96 562 4 19 23 563.2 GR 20 4 567 3 20. 76 580 8 20. 92 520 3 20. 36 629 1 20 17 540.5 GR 19 9 641 7 19. 66 642 8 19 . 55 643 2 19. 14 645 3 18 50 647.3 GR 13 5 647 8 18 . 05 648 5 19. 62 654 0 20 . 14 655 0 20 82 653.4 GR 20 8 658 9 20 86 659 4 24 681 25 690 28 697 GR 30 706 30 734 29. 55 738 3 30 .5 750 1 31 82 755 .3 GR 33.29 763 3 34 34 767 6 37 . 48 778 0 37 . 8 785 6 39 01 788 .3 XI 340 0 64 0 277 . 7 339 1 29E . 6 287 2 292 .0 GR 30 1 0 29 12 8 3 29 11 10 0 29. 01 14 0 25 76 22 .4 GR 25 5 23 2 25 42 23 7 24 27 35 0 21. 92 45 6 21 72 45.4 GR 20 1 53 2 20 61 57 6 20 11 77 5 19. 54 107 7 20 24 119.4 GR 20 2 147 4 20 11 174 5 20 12 195 9 19. 93 232 7 20 17 256.8 GR 20 1 273 0 19 88 277 7 18 95 281 8 17 . 55 287 1 14 51 300 . 0 GR 13 5 304 5 13 40 305 3 13 41 307 5 13 42 320 8 15 62 329.3 GR 17 2 335 8 17 34 339 1 17 63 342 5 18 15 346 5 18 26 356.3 GR 18 4 362 1 18 93 373 0 19 27 382 5 19 74 397 6 19 50 405.0 GR 19 5 419 1 19 35 452 0 19 79 472 4 19 31 495 6 21 43 528.7 GR 21 3 558 3 21 19 575 5 23 04 587 0 23 39 591 6 25 04 602.7 GR 26 7 607 1 27 28 611 8 27 57 617 0 30 35 623 0 42 82 645.6 GR 43 7 647 2 43 91 647 9 45 06 556 8 45 79 662 1 46 47 664 . 0 GR 50 7 671 2 51 03 672 1 52 00 674 0 53 71 677 2 XI 350 0 60 0 308 . 9 406 4 223 .2 252 1 234.5 GR 35 8 0 35 14 2 0 35 17 11 4 34 78 IE 6 33 74 26.1 GR 33 1 32 4 32 37 41 3 32 16 42 0 31 70 44 9 27 71 67.9 GR 27 6 68 3 27 60 58 .5 22 37 91 0 20 95 102 5 21 60 103.5 GR 21 3 129 9 21 39 157 . 9 21 57 172 3 21 62 189 7 22 17 207.5 GR 22 .6 217 3 22 71 220 .4 23 45 236 2 23 18 245 5 22 53 253 .8 GR 21 .5 271 .3 20 87 284 .3 20 71 238 2 20 38 296 9 19 82 308.9 GR 13 .2 321 . 7 16 79 335 .4 15 44 343 9 14 55 349 2 14 60 364.9 GR 14 . 6 365 .8 14 65 356 .0 17 09 372 9 17 11 373 5 13 60 385.0 GR 18 .6 386 . 0 18 62 336 .6 19 39 406 4 19 90 428 0 19 75 441.6 GR 20 .3 452 .6 20 25 484 .7 20 72 521 0 20 63 544 7 21 39 572 . 9 GR 21 .3 577 .7 22 35 533 . 0 24 98 594 9 25 69 596 .8 30 99 609.0 GR 39 . 9 625 . 1 49 21 643 - 2 S3 10 652 .4 53 57 661 .7 55 . 10 664.7 14:43:56 XI 360 0 93 0 327 .9 419 3 298 . 0 322 . 1 305 .1 GR 40 2 0 40. 27 1 7 40. 05 10 . 1 38. 51 19 .2 38 31 20.3 GR 38 5 27 7 33 . 12 64 3 32 . 68 67 .2 33 . 15 95 .2 33 94 109.4 GR 34 3 114 5 33 . 34 118 9 30. 84 124 . 5 30. 82 126 .2 30 33 136.7 GR 31 6 141 8 31. 52 143 2 31. 34 145 .9 30. 76 153 . 3 30 59 155 . 3 GR 30 4 159 1 30. 12 152 3 29. 94 169 . 6 29. 61 183 .5 29 52 210.2 GR 29 0 212 2 28 . 76 213 0 23 . 55 213 . 6 28. 09 215 .3 28. 03 213.9 GR 27 9 230 1 28. 94 233 6 29. 05 236 . 1 29. 54 238 .8 29. 90 240.1 GR 30 2 241 0 30. 47 241 3 30. 76 242 .6 30. 94 247 .3 29. 55 256.0 GR 27 6 265 5 26. 18 276 9 25. 14 285 . 9 24. 18 291 .7 23 . 43 297.3 GR 22 8 302 9 22 . 27 316 5 22 . 23 322 . 6 21. 09 327 . 9 20. 95 328.8 GR 20 8 330 7 18 . 76 353 3 18 . 41 361 . 0 15. 51 376 .6 14 . 96 399.0 GR 14 9 406 3 17. 02 412 4 20. 15 419 . 3 20 . 59 424 .6 22. 54 439.7 GR 23 1 447 .0 24 . 75 458 3 25. 54 471 . 7 25. 97 480 . 9 25. 26 487 .4 GR 23 6 491 .1 23 . 37 516 2 24 . 19 524 .4 24 . 81 526 . 8 25. 05 527.6 GR 25 2 528 .3 25. 53 530 5 24 . 74 534 . 1 24 . 56 535 . 7 23 . 72 548 . 9 GR 23 7 549 .5 23 . 17 573 2 23 . 24 608 .3 23 . 35 635 . 1 23. 46 658.3 GR 24 2 679 .7 23 . 67 690 3 23 . 50 697 .3 23 . 53 722 . 5 25. 67 746.9 GR 26 8 761 . 6 28. 05 764 5 30. 41 770 .4 45. 35 804 . 1 46. 75 806. 0 GR 47 2 806 . 7 52 . 02 818 6 56. 91 830 . 0 NH 4 . 03 64 .5 . 045 128 . 1 . 03 597 .5 05 672 .2 XI 370 0 90 . 0 64 .5 128 1 434 .6 456 . 5 470 .0 GR 40 3 . 0 40. 31 10 4 35. 39 16 . 3 35. 08 18 .6 32 . 11 25.7 GR 30 7 29 . 0 25. 26 41 6 25. 06 43 . 9 22 . 62 57 .4 22. 56 57.8 GR 22 0 64 .5 20. 74 71 8 20. 32 77 . 6 18. 83 73 . 9 17. 71 80.5 GR 16 2 82 .2 16. 51 91 9 16. 90 106 . 9 17. 74 109 .6 19. 02 115 .1 GR 19 6 119 .6 21. 02 127 3 21. 26 128 . 1 21. 47 133 .2 21. 38 141.3 GR 22 2 149 .4 23 , 71 190 0 23 . 69 195 . 1 23. 10 228 .3 23 . 10 231.2 GR 23 0 269 . 1 23 . 13 302 9 23 . 00 315 .2 22. 94 320 .3 23 . 11 326.7 GR 23 5 332 .2 23 . 42 334 5 23 . 20 340 . 9 23 . 20 344 .5 23 . 24 349.9 GR 23 2 356 .7 23 . 28 358 8 25. 70 364 . 7 26. 04 365 .6 26. 04 365.7 GR 26 0 366 . 3 25. 71 373 5 25. 59 379 .6 25. 58 381 .7 25. 41 387.5 GR 25 5 395 . 8 25. 48 403 0 25. 07 415 . 1 25. 06 416 . 9 25. 17 423 . 8 GR 25 4 434 .4 26 03 444 3 26. OS 445 . 0 26. 66 451 . 7 26 . 72 452.5 GR 26 3 453 .3 28 . 00 465 8 28 . 02 466 . 3 23 . 07 467 . 4 28 . 41 475.7 GR 28 4 476 .5 28 . 10 487 8 23 . 18 496 .7 23 . 42 505 . 7 28 . 53 509.9 GR 23 6 512 .5 23 . 37 543 4 28 . 19 549 .4 28. 18 555 .6 27 . 66 561.8 GR 27 7 562 . 6 27. 70 563 0 27. 33 574 .2 27. 34 575 .0 27. 33 576. 1 GR 26 8 585 . 7 26. 53 597 5 26. 53 598 . 0 26. 35 508 . 8 26 33 614 .8 GR 27 5 622 . 9 36. 48 647 1 38 . 15 650 . 5 39. 77 653 .5 48 67 672.2 NH 5 03 113 .3 . 045 169.0 .03 59S .5 05 658 .8 .03 NH 678 XI 380 0 91 .0 113 .3 169 0 25E .7 249 .2 262 .3 GR 40 9 . 0 40 92 4 0 41 00 5 .0 39. 31 10 .6 39. 00 16.7 GR 38 .6 18 .3 37 71 20 6 30. 96 34 . 7 30. 22 36 .4 27 . 15 42 .8 GR 26 1 45 .9 24 79 70 4 24 53 75 .4 24. 51 77 . 7 24 . 44 102 .1 GR 24 1 1 OS , 2 24 35 in 4 23 96 111 fi 23 . 86 1 1 3 - 3 22 -45 11 fi . GR 19 7 121 .6 18 50 124 1 13 39 124 .2 18. 42 131 . 5 18. 69 142 .2 GR 18 . 9 147 .8 19 38 148 5 19 44 150 .3 20 . 57 158 .4 21. 18 159.5 14:43:56 PAGE 13 GR 21 2 150 6 22 . 00 165 5 22 . 33 168 1 22 30 168 4 22 56 169 0 GR 22 7 179 0 23 . 27 187 3 23. 47 194 8 23 48 195 3 23 51 207 1 GR 23 6 216 3 23 . 67 219 5 23. 38 226 7 23 52 247 4 23 78 255 9 GR 24 0 259 9 24 . 10 280 4 24. 27 299 0 24 43 307 6 24 53 322 1 GR 24 7 329 1 24 . 68 329 9 24. 90 344 7 24 96 345 1 25 59 361 9 GR 26 4 381 8 27. 20 395 0 28. 29 417 7 23 58 424 9 29 33 429 1 GR 29 2 430 4 29. 01 435 5 28 . 83 437 5 27 24 460 9 27 13 463 1 GR 27 0 470 9 25. 70 488 1 27 . 01 504 3 26 91 509 9 26 35 536 2 GR 25 7 543 0 26. 77 545 2 27 . 01 547 2 27 55 562 0 28 07 574 4 GR 28 2 578 7 28 . 41 583 9 28 . 36 599 5 29. 10 605 4 29 21 609 6 GR 29 0 614 1 28 . 68 627 2 31. 14 528 5 33 . 17 631 5 33 25 633 0 GR 33 2 634 8 34 . 09 648 5 34 . 13 550 5 34 . 93 652 2 39 27 558 8 GR 53 4 678 0 NC . 03 .03 .045 XI 390 0 99 0 349 .7 407 1 287 . 7 257 6 28E .1 GR 36 0 0 36. 04 1 35 . 47 9 8 34 . 99 15 2 34 86 20 5 GR 34 9 20 6 34. 48 31 5 34. 34 34 9 34 . 08 37 8 33 53 45 6 GR 33 5 47 1 34 . 09 52 1 34 . 14 52 3 33 . 95 60 7 33 03 70 4 GR 33 0 70 6 32 . 77 74 3 31. 92 87 2 30. 79 89 8 30 15 91 3 GR 29 6 92 7 29. 42 93 1 28 . 52 95 0 28. 85 95 9 28 94 96 1 GR 29 1 96 5 29. 17 96 9 29. 38 97 4 29. 48 97 7 29 70 98 4 GR 30 1 99 6 30. 55 101 0 31. 19 103 0 31. 12 104 3 30 91 109 5 GR 30 8 112 9 30. 51 121 0 30. 14 130 1 29. 90 136 5 29 85 137 6 GR 29 8 142 1 29. 01 162 6 28 . 54 174 2 28 . 03 198 2 27 67 210 1 GR 27 6 214 3 27 18 223 3 26. 45 247 6 25. 93 257 5 25 72 264 9 GR 25 4 275 6 25 47 230 3 25. 44 293 8 25. 27 304 5 25 10 334 4 GR 24 9 349 7 22 34 354 7 21. 35 356 5 21. 29 357 8 20 45 372 3 GR 20 2 377 0 20 15 381 8 23 . 95 399 6 25. 67 407 1 25 25 423 3 GR 24 9 433 9 24 99 443 3 25. 18 458 0 25. 21 466 5 25 22 500 3 GR 25 1 531 1 25 27 548 4 25 42 564 8 26 90 582 7 27 32 588 3 GR 27 5 590 3 27 90 593 2 28. 01 593 8 28 17 595 0 28 23 595 6 GR 28 4 596 6 28 53 597 5 28 71 598 6 29. 09 601 2 29 08 606 0 GR 28 9 622 9 28 56 627 6 27. 57 637 1 27. 23 543 3 29 63 651 1 GR 30 7 653 6 32 40 657 9 32 49 660 1 32. 63 565 7 32 72 675 1 GR 34 3 678 1 43 87 695 3 45. 47 697 7 47. 73 701 3 XI 400 0 46 0 124 . 9 248 2 32C . 0 286 8 302.8 GR 54 7 0 52 . 85 5 3 50. 51 12 8 38 . 07 42 6 36 68 46 9 GR 35 5 51 2 33 31 56 9 32 . 93 53 3 32 . 65 67 1 32 63 73 6 GR 32 2 86 2 32 22 87 5 31 95 38 8 31. 82 90 0 31 86 92 4 GR 31 6 93 4 31 31 106 1 31 08 110 6 30. 46 124 9 23 84 150 2 GR 22 7 154 0 22 66 155 5 22 . 79 176 7 22 . 45 132 0 22 23 196 7 GR 22 .1 211 5 22 43 214 2 22 50 214 5 22. 76 217 8 22 78 218 6 GR 23 .3 219 6 30 46 235 9 35 63 248 2 36. 03 249 5 36 22 254 7 GR 36 .4 261 6 36 21 264 6 36 00 271 1 35. 70 273 4 37 04 278 2 GR 40 .5 289 .2 41 50 2 92 4 45 93 302 4 48 . 33 307 8 52 53 316 6 GR 54 .0 319 .5 14:43:56 19 NH 4 .03 3 92 .2 .05 547 . 1 .045 592 . 1 .03 1756 .3 XI -180.0 96 0 529 .3 1516 2 145 100 145 GR 38.2 0 36 . 11 18 6 32 . 28 25 7 28 . 76 31 6 26. 55 37.4 GR 23 .4 45 7 21. 97 49 0 21. S3 49 1 20. 62 50 1 13 .9 51.6 GR 19.26 57 8 20. 32 60 3 22 . 08 64 5 23 . 24 67 3 25 .2 72.7 GR 26 . 11 90 5 26. 35 94 2 25. 10 119 3 23 . 72 121 0 23 .3 128.7 GR 23.06 129 7 20. 24 138 9 17. 70 147 2 17. 50 148 3 16 . 9 157.5 GR 16 .44 160 3 15 . 98 179 7 18 192 19 197 19 218 GR 18 222 15 226 14 . 33 249 1 14 . 06 294 6 13 . 99 377.7 GR 13 .06 392 2 13 . 8 485 3 12 . 81 529 3 10 . 82 540 2 8 . 95 547 .1 GR 6.31 560 3 6 .3 564 1 5. 09 592 1 6 . 09 593 6 8 . 47 597.1 GR 8 . 58 597 8 8 . 9 599 8 9. 63 606 5 10. 11 616 4 10. 53 633 .6 GR 11. 16 651 5 11 .6 670 8 11. 58 695 5 12 . 04 724 3 12 . 55 • 754.6 GR 12.35 795 1 13 .2 813 0 13 51 839 2 15. 17 332 5 15 . 50 338.2 GR 15.87 895 4 16 .5 907 7 17 07 915 3 16. 32 937 4 16. 03 950.4 GR 15.74 968 3 15 . 3 993 4 15 18 1013 8 15. 44 1022 3 14 . 5 1043 GR 14 1073 12 1165 11 1218 10 . 8 1265 11 1290 GR 11.8 1350 11 1412 10 68 1435 3 11. 20 1452 1 9. 83 1460.5 GR 8.48 1453 . 1 9 . 1 1466 3 10 56 1468 9 10 . 88 1486 7 11. 18 1500.9 GR 11. 93 1508 .3 12 . 7 1516 2 14 00 1526 2 15. 39 1535 1 15. 71 1601.3 GR 15 . 90 1732 . 1 16 .3 1736 3 17 17 1739 0 13 . 53 1746 3 19. 80 1751. 0 GR 21. 00 1756 3 QT 1 1900 NC . 03 . 03 03 XI 410.0 100 . 0 465 . 5 476 9 205 210 207 GR 14.4 . 0 14 . 40 21 3 14 43 26 3 14 . 48 53 6 14 . 57 79.5 GR 14.6 104 .3 14. 68 133 5 14 89 177 1 14 . 94 219 1 14 . 98 272,3 GR 15 .1 290 .5 14 . 57 312 8 13 98 329 0 13 . 82 339 1 13 . 55 350.2 GR 13 . 0 364 .4 12 . 33 390 7 12 77 394 3 12 . 39 411 5 12 . 33 414.0 GR 12 .2 418 . 0 11. 36 434 7 11 68 449 9 11. 52 457 0 11. 33 460.5 GR 11.1 465 . 6 10. 12 468 1 9 97 468 3 9. 36 459 8 9. 39 475 .4 GR 10 . 6 476 .4 11. 39 476 9 11 51 485 0 11. 69 500 7 11. 54 514.3 GR 12 .1 528 . 5 12 . 24 530 0 13 72 547 2 14 32 555 8 14 . 76 560. 9 GR 14 . 8 561 . 9 14 . 79 563 9 15 29 572 0 15 34 574 6 15. 66 579.1 GR 15.8 581 . 1 15. 98 583 2 16 56 595 3 15 71 596 8 15. 97 600.9 GR 17.0 603 . 9 17. 65 625 2 17 70 626 2 18 07 647 5 13 . 64 654.7 GR 18.7 668 .2 18 . 99 576 3 19 25 683 4 19 33 686 4 19. 57 691.0 GR 19.3 696 . 0 18 . 53 598 . 1 18 17 598 6 18 03 703 5 17. 94 712 .2 GR 19.4 714 . 8 19. 51 715 .3 19 19 730 0 18 93 734 .0 19. 29 746 .2 GR 21.5 757 .8 21 . 55 758 .3 21 58 758 8 22 10 760 8 24 . 96 772 .0 GR 25.3 773 . 5 29. 04 786 7 29 69 789 2 32 96 801 .3 33 . 79 804 . 9 GR 34.6 808 .4 36. 77 821 1 38 10 826 1 39 27 830 .7 39. 76 337.3 GR 40.0 342 .3 40. 84 849 4 40 91 850 5 41 04 852 .0 41. 89 352.1 GR 42 .1 868 .2 42 . 00 895 .5 42 37 901 5 44 76 906 1 47. 20 911.2 GR 47 . 5 918 .3 47 . 17 946 . 1 47 15 948 6 47 35 952 2 47. 81 959.3 24JUL02 14:43:56 XI 420 0 95 0 514 . 3 524 3 17' .5 176 1 176 . 7 GR 25 4 0 25 . 34 3 4 24 72 14 1 24 30 20 5 22 20 36.4 GR 21 9 33 7 21. 74 39 6 21 24 43 6 20 22 50 9 20 17 51.2 GR 18 4 65 0 17 . 79 71 0 17 71 73 5 17 46 83 9 17 01 93 . 9 GR 16 8 96 5 16. 41 104 7 15 90 110 3 15 66 113 7 15 31 121.1 GR 15 1 134 8 15. 02 148 2 14 95 166 0 14 83 195 9 14 57 226.1 GR 14 6 240 4 15. 70 253 3 15 97 256 1 16 50 281 6 16 08 303.7 GR 15 1 303 7 15. 41 313 7 17 344 17 433 16 442 GR 13 9 470 8 13 . 54 489 3 13 26 500 3 12 42 514 3 12 37 515 . 3 GR 11 3 517 3 10. 99 517 8 10. 26 521 3 10. 55 521 3 12 44 524.3 GR 12 8 528 8 13 . 29 539 8 13 08 550 8 13. 13 555 3 13 41 558.8 GR 13 7 573 3 14 . 12 580 3 14 30 589 8 14 . 24 508 3 14 30 614.3 GR 14 4 626 3 14 . 85 640 9 14 . 94 544 9 15. 23 665 4 15 25 665 . 9 GR 15 6 679 9 15. 85 685 9 16. 21 596 4 16. 45 705 9 16 92 716 . 9 GR 17 0 717 9 17. 94 721 9 20. 27 729 9 22 . 49 737 9 23 70 743.4 GR 24 9 748 4 25. 30 755 4 25 97 757 4 25. 97 773 9 26 20 786 . 9 GR 25 3 799 5 26. 75 801 5 28 62 810 0 30. 23 817 0 32 54 826.0 GR 34 1 831 5 36. 58 842 5 37 94 848 5 40. 25 860 0 41 25 855.5 GR 42 0 871 0 42 . 20 872 0 42 27 873 5 43 . 06 389 0 43 30 897.5 GR 43 3 910 0 44 . 09 914 0 45 12 923 5 46. 08 955 6 45 08 956.1 XI 430 0 95 0 409.3 422 4 12-.3 128 6 127 . 6 GR 23 1 0 23 . 04 6 22 78 2 1 21 . 34 11 1 21 35 11.2 GR 21 5 12 4 23. 14 25 6 23 16 27 8 23 . 14 30 3 20 91 33 . 9 GR 19 7 36 0 19. 79 42 1 19 96 51 3 20. 52 52 6 20 65 62.5 GR 20 6 31 3 20. 48 112 5 20 11 129 0 19. 88 131 8 19 47 136. 1 GR 19 4 138 2 18 . 35 149 1 18 13 151 3 17 . 70 154 8 17 65 155.5 GR 17 4 158 4 16. 66 171 3 15 97 182 0 15 . 87 184 6 15 90 195.0 GR 15 2 208 4 15. 25 213 6 15 69 225 2 16 . 09 264 3 15 34 274.9 GR 15 3 292 4 15. 49 317 5 15 19 321 0 15 . 80 335 1 15 59 365.7 GR 15 4 387 8 15 . 90 400 3 15 81 409 8 14 . 90 413 3 14 93 416.4 GR 14 9 419 9 15. 31 420 9 15 71 421 9 16 . 05 422 4 16 24 426.4 GR 16 3 442 5 16. 29 458 5 16. 58 483 1 16. 66 506 2 17 14 528.2 GR 17 4 532 8 17 . 42 535 3 17. 81 541 3 17 . 93 544 3 18 55 553 .8 GR 18 8 558 3 18 . 99 564 4 19. 19 567 4 19. 35 570 4 19 71 572 . 9 GR 20 1 579 9 20 . 16 581 4 20. 39 588 9 21. 55 593 5 23 19 602.3 GR 23 2 602 3 23 . 20 602 3 26. 99 619 4 27. 48 621 0 27 87 622 . 6 GR 31 9 636 6 33 . 72 642 3 35. 99 652 2 37 . 59 658 9 40 67 673 .4 GR 41 0 675 5 41 . 35 632 3 41. 82 691 6 41. 76 701 0 41 93 720.1 GR 42 3 757 0 42 . 45 762 3 42 . 55 776 2 44 . 60 785 6 45 3-2 789.2 GR 45 9 807 9 45 . 53 827 1 44 . 40 329 2 44 . 12 853 1 44 25 870.2 XI 440 0 95 0 88 . 9 414 5 190 163 9 188.9 GR 30 3 0 30. 09 2 5 28 80 18 7 27. 11 30 5 25 52 35.3 GR 24 3 42 8 24 . 21 43 3 21. 28 54 6 20. 87 56 7 20 92 57.3 GR 20 5 59 4 19. 83 70 7 19 37 73 4 17. 03 82 0 15 31 88.9 GR 15 3 114 6 15. 30 119 9 15 30 147 3 15. 29 155 5 15 29 131.5 GR 15 3 190 6 15. 29 214 2 15. 76 217 9 16. 01 220 1 16 06 225.4 GR 16 0 230 3 16. 04 238 3 15. 05 244 2 15. 09 253 8 16 04 267.2 GR 16 1 274 7 16. 23 287 0 16. 38 313 8 15. 98 322 4 15 29 327.2 GR 15 3 331 5 15. 29 332 0 15. 23 342 2 15. 28 354 5 15 28 367 . 9 24JUL02 14:43:56 PAGE 21 GR GR GR GR GR GR GR GR GR GR GR 15.3 16.0 18.4 21.5 22 . 9 22 .6 24 .1 35.3 40.9 42.9 44.2 380.2 416.1 449,8 482 . 0 525.3 597.1 622.8 667.8 697.9 731.1 779.3 15.27 16 .14 19.52 21.69 23.41 22 .14 26.51 37 . 04 41.17 44.09 43 .86 398.4 419.3 460.6 436.3 539.2 600.8 632.5 671. 0 702 .2 744 .4 798.0 15.27 16.78 19.66 21. 73 23.71 22 . 15 27.34 37.11 41.39 44.22 44.18 402 .1 434 . 8 461.6 489.4 561.2 608 .4 637.3 671.1 703 .8 753 . 0 825.3 15.27 16.83 20.35 22.36 23.37 22.07 31.06 37.31 42.65 44.39 44 .44 414.5 437.5 467 . 0 503 . 9 566.1 612 .1 649 .1 572 .2 713.9 765 . 9 342 .5 15.64 17.38 21.10 22 .73 23 . 72 22 . 85 32 .15 40.62 42.58 44.62 44.41 415.0 441.2 473 .4 515.2 586.4 616.4 652 . 8 685.6 717 .1 777.2 846.8 XI GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR 450.0 28.4 27.3 19.0 18.2 18 .1 20.0 22 .2 21.4 18.8 15.9 15.6 17 . 7 18 .2 18.0 21 . 0 28 . 0 29.4 29.5 88.0 . 0 21.3 68.0 136.6 236.3 289.3 334.5 346.9 387.5 415.5 433.7 492.3 529.7 574.4 617.0 661.6 688.6 726.1 401.9 28.68 22 . 99 18 . 84 18 . 39 18.26 20.30 22.35 21.77 18.57 16.28 17.77 17.53 18 .22 19.37 22 . 93 28.29 33.38 29.60 438.8 6.2 35.3 72.2 153.6 256. 0 296.0 337.0 349.5 391.1 416.5 438 . 8 501.2 537 . 0 597.8 632 .6 652 . 7 703 .2 738.6 250 28.67 22.15 18.63 18 . 05 19.00 20.89 22 . 02 22.08 13.18 15.43 17.79 17.23 18.21 19.54 23.29 28.20 33 .39 29.85 269.0 8.3 33.4 35.7 178.1 268.5 309.0 338.6 350.6 396.3 418.1 442 .5 512 .1 539.1 600.3 635 .2 665.3 705 . 8 747.4 277 . 3 28 . 61 21.67 18 . 59 18.03 19.32 21.20 21.51 21.72 17.83 15.37 17.88 17.44 17.93 20.04 23 .40 27.98 33.96 9.3 41. 0 93.5 184 . 9 286.1 314,7 341.2 353.7 401.9 424.8 456.5 517.3 553 .5 605.6 636.2 681.4 713 .1 27.65 19.55 18 .42 13 . 07 19. 96 21.79 21.46 19.10 17.50 15.33 17.89 17 . 89 17 . 86 20.60 25.06 28 .19 33 . 88 18.2 55.1 115.3 208.8 288 . 7 330.3 343 . 8 383 .3 410.3 427.4 471.1 525.1 565.5 612.8 645.1 684.5 713.2 XI GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR 460 . 0 29.1 21.3 20.4 20.5 21.3 19.8 15.7 18.8 20.1 22.6 23.0 20,4 19.9 19.6 20.0 21.1 21,9 25.6 24.7 94 . 0 . 0 42 . 0 105.2 154 . 3 191.7 263.0 282 . 7 297.4 319.1 352.5 393.5 445.6 508 . 8 523 . 5 545.2 548.4 5 -6fl . 1 600.5 637.9 277 .1 28 . 80 21.19 20.38 20.76 21.10 18 . 87 15.73 19.15 20.16 22.64 22 . 32 20.11 19.97 19.86 19.99 21.07 22 ,70 25.49 24.72 293 . 8 6.1 45 . 0 124.4 172 .4 195.2 272 . 6 286.3 305.0 319.6 359.1 399 . 0 452.7 509.3 533 .6 545.7 550.4 575 ,2 604 . 5 639.4 241.7 27.66 20.68 20.37 20. 95 20.77 13 .21 15.76 19.34 20.30 22.96 21.60 20.07 20 . 02 19. 94 19.93 21. 02 22 , 97 25 .13 24.74 251.5 11.1 75.3 126 . 9 176 . 0 208.8 277 .1 288.8 307 . 0 325 .2 372 .2 419.8 467 . 3 510.3 541.2 545.2 554.5 577,2 515.2 641.4 245.5 25.23 20.59 20.33 21.62 20.33 16.64 18.01 19.42 20.55 23 . 11 21.51 19. 99 20.73 20.03 20.14 20.94 24 , 51 24.83 24 . 94 23.8 81. 9 148.7 185 . 5 233.7 278 .2 292.8 309.0 329.3 378.8 420.3 483.0 520.4 543 . 7 547.2 556 . 0 588 . 3 628 . 8 655.6 22 . 86 20.45 20.38 21.59 20.16 15.61 18.73 19.92 21.29 23.12 21.33 19. 96 20.57 20.02 20.36 20.96 24 , 51 24.72 34.4 98.6 150.2 187.1 245.3 278.7 293 . 8 316.1 335.8 383.9 424.8 490.6 520.9 544.7 547.4 560.0 588 , 3 535.9 14:43:55 PAGE 22 XI 470 0 79 0 194 .0 219 0 261 .4 262 2 260 .5 GR 30 7 0 30. 69 2 5 30 . 63 7 5 30 . 28 18 5 30 20 21 0 GR 29 8 22 5 23 . 63 27 5 27 . 58 33 0 25 . 11 41 0 25 56 49 0 GR 25 3 53 0 24 . 68 72 5 24 . 56 76 0 24 . 55 76 0 24 53 77 0 GR 24 1 93 5 23 . 99 99 5 24 . 00 126 0 24 . 00 131 5 24 00 133 0 GR 24 0 140 0 23. 99 141 5 23 . 88 144 5 23 . 62 151 5 22 59 173 0 GR 22 2 184 5 22. 02 191 5 21. 85 194 0 19. 31 197 5 17 97 199 5 GR 16 7 202 5 16. 56 204 5 16 . 35 203 0 20 . 40 208 5 20 99 209 0 GR 22 3 219 0 22 . 47 220 5 22 . 51 221 0 22 . 55 221 5 23 07 239 0 GR 23 1 243 0 23. 26 260 0 23 . 76 307 0 23 . 78 307 5 23 40 314 0 GR 23 3 316 0 23 . 23 324 0 23 . 14 338 5 22 . 92 357 5 22 94 365 0 GR 22 9 373 0 22 . 84 391 5 22 . 84 400 5 22 . 86 421 5 22 85 424 5 GR 22 9 427 0 22 . 59 447 5 22 . 68 452 0 22 . 57 474 0 22 59 479 0 GR 22 8 495 0 22. 83 506 0 22 . 85 512 0 23 . 01 519 5 23 33 533 5 GR 23 5 542 5 23 . 43 547 5 25 . 55 557 5 26. 01 561 0 26 75 572 0 GR 26 6 575 0 26. 16 588 5 25. 92 594 0 25. 69 593 5 23 66 609 0 GR 23 5 610 0 23 . 61 610 5 25. 07 625 0 26 . 55 648 0 XI 480 0 100 0 198 .2 221 3 235 . 0 236 7 236 . 0 GR 33 8 0 33 . 89 2 5 32 . 77 11 5 32. 71 13 0 32 50 24 1 GR 31 0 24 2 28 . 95 25 2 28 . 66 34 7 28 . 55 48 3 23 24 53 8 GR 28 6 58 3 29. 73 71 3 29. 79 80 9 29. 52 107 5 28 64 113 5 GR 27 3 122 5 27 . 27 124 5 25 . 92 133 5 25. 84 153 6 25 78 164 5 GR 25 4 175 7 25. 29 182 7 24 . 78 188 7 24 . 64 194 7 24 64 194 7 GR 23 7 198 2 19. 43 200 7 19. 30 202 2 18 . 34 213 3 19 13 213 8 GR 19 4 213 8 21. 37 218 3 24 . 90 221 3 25. 03 224 3 25 68 232 3 GR 25 4 263 9 25 27 280 0 28 . 17 320 1 29. 17 328 6 29 07 332 1 GR 28 8 338 1 30. 05 346 2 30. 72 350 2 30. 33 351 2 31 25 355 2 GR 32 6 372 3 34 59 3 92 8 34. 62 393 3 34 . 52 394 3 34 07 399 9 GR 32 9 402 4 32 09 404 9 31. 34 407 9 31. 18 415 4 31 50 422 4 GR 33 0 424 4 33 30 438 0 33. 01 448 0 33 . 14 454 0 33 11 463 1 GR 34 3 486 1 34 68 4 92 6 35. 10 493 1 35. 98 512 7 37 60 531 8 GR 37 8 535 3 37 35 562 3 36. 92 573 4 36. 25 579 4 35 72 585 4 GR 34 2 597 4 33 47 612 0 34 . 29 628 5 34 . 57 641 6 34 59 643 1 GR 35 2 673 7 35 26 675 7 35. 34 677 7 35 . 80 678 2 35 80 678 2 GR 35 8 678 7 36 25 694 8 36. 80 704 8 37. 18 710 3 37 96 718 3 GR 38 9 728 9 39 53 735 9 40. 48 745 9 41. 39 750 5 41 81 766 0 GR 42 2 770 0 44 77 782 5 46. 05 789 5 49. 57 806 6 50 29 809 5 GR 51 1 813 1 54 60 828 2 57 06 838 7 58 . 61 345 7 60 23 853 2 XI 490 0 92 0 274 .6 235 3 248 . 8 248 1 247 .9 GR 42 1 0 42 29 2 5 42 25 8 1 42 . 09 11 2 42 05 11 7 GR 41 2 22 3 38 60 25 4 36 43 27 9 35 . 34 30 4 34 91 45 2 GR 34 8 46 7 34 13 53 3 33 63 57 8 33 . 74 59 9 33 79 68 5 GR 33 7 72 5 34 16 78 7 35 02 37 8 35. 46 92 9 36 23 104 5 GR 36 4 110 6 36 89 123 8 37 15 128 9 36. 75 132 4 36 43 134 4 GR 36 5 135 0 36 41 135 0 35 03 133 0 35. 02 133 1 35 00 138 6 GE 34 3 153 3 34 32 153 8 34 32 154 4 34 . 89 155 4 35 13 155 9 GR 35 4 156 9 35 41 158 4 35 43 161 5 35. 44 162 0 35 41 153 0 GR 35 0 154 0 34 49 164 5 34 45 166 6 34 . 27 175 7 34 27 175 7 24JUL02 PAGE 23 GR 34 3 175 .7 35. 11 176 . 7 35. 15 177 7 35 51 180 8 36 .70 185 .8 GR 35 4 187 . 9 35 . 41 192 . 0 33. 96 200 1 31 45 215 3 31 .42 215 .8 GR 30 7 220 . 9 30. 17 228 . 0 29. 17 241 1 29 02 243 7 23 03 257 . 9 GR 27 9 259 . 9 27. 83 260 .4 27. 66 262 4 26 66 274 6 25 89 276 2 GR 23 9 230 .2 26. 47 283 . 8 27. 47 285 3 28. 29 306 6 28 48 310 6 GR 29 0 318 . 8 29. 34 324 . 8 29. 57 329 4 29. 78 330 9 30 90 342 1 GR 31 5 346 .2 33 . 43 357 .3 33 . 78 359 8 33. 62 365 4 33 29 376 1 GR 32 0 396 . 9 31. 29 410 . 1 30 . 96 414 1 30. 96 424 3 30 95 425 3 GR 31 5 431 . 9 31. 59 432 .9 31. 97 433 4 34. 90 434 9 39 52 442 0 GR 41 1 444 . 6 41. 19 455 .2 XI 500 0 65 . 0 233 .7 267 .3 159 .6 157 7 15' .7 GR 41 8 . 0 41 . 75 2 . 6 41. 63 7 8 36. 34 31 4 36 33 31 5 GR 36 3 31 .5 35. 25 43 . 0 34 . 30 46 7 33. 45 50 4 33 26 58 2 GR 33 2 59 .3 32 . 13 75 . 0 32 . 08 76 0 32 . 09 78 6 32 21 94 9 GR 32 2 100 . 7 32 . 13 115 . 9 31. 89 130 0 31. 98 142 6 31 67 155 5 GR 31 6 168 .2 31. 41 174 . 0 31. 01 139 2 30. 30 196 0 30 32 209 1 GR 30 1 227 .4 30. 03 230 .5 29. 75 233 7 23 . 73 244 7 26 82 248 9 GR 25 4 251 .5 25. 41 254 . 1 25. 39 255 7 28. 15 257 9 28 60 253 4 GR 28 7 259 . 9 29. 60 267 .3 29. 95 234 0 30. 03 286 1 30 05 287 2 GR 30 1 289 . 8 30. 08 297 .7 30. 05 311 8 29. 99 316 5 30 05 333 3 GR 30 3 349 .5 30. 37 356 .3 30. 75 377 8 30 . 80 381 4 31 14 384 1 GR 31 6 333 .3 32 . 44 395 .6 32 . 53 398 8 32 . 63 402 5 33 55 409 3 GR 35 2 420 . 8 35 . 50 421 . 8 38 . 05 423 4 42 . 08 430 2 42 82 431 7 GR 42 8 437 . 0 42 . 83 438 .6 42 . 98 441 2 42 . 79 452 2 42 76 456 9 NH 2 . 05 76 .2 . 03 593 .4 XI 510 0 70 . 0 245 . 8 278 . 5 134 .2 189 1 187 . 9 GR 53 8 . 0 48 . 29 16 .2 48 . 12 16 7 48 . 06 17 2 43 24 32 3 GR 40 3 42 . 8 39 . 44 47 . 3 37 . 97 54 0 37 . 71 55 1 37 58 57 3 GR 36 2 76 .2 36 . 08 80 . 6 35 . 88 35 0 35. 53 89 0 34 81 99 6 GR 34 8 116 . 8 34 . 70 122 . 3 34 . 60 123 4 34 . 11 149 6 33 87 174 6 GR 33 8 176 .3 33 . 77 179 . 6 33 . 27 193 0 33 . 01 204 7 32 44 224 6 GR 32 3 229 . 7 32 . 20 233 . 0 31. 77 245 8 30. 88 249 6 29 54 255 8 GR 27 7 257 . 5 27. 70 257 . 5 27 . 67 258 0 27. 27 263 1 28 48 265 3 GR 29 4 266 . 9 30. 17 268 . 1 30 . 39 269 1 31. 27 278 6 31 57 279 2 GR 32 0 293 . 1 32 . 25 315 . 9 32 . 76 339 3 32 . 76 340 3 32 77 341 4 GR 32 8 364 .2 32 . 78 377 . 1 32. 80 387 0 32 . 78 403 2 32 78 403 7 GR 32 8 409 . 8 32 . 36 432 . 1 32 . 92 440 5 32 . 95 452 6 33 03 469 9 GR 33 0 471 . 0 33 . 10 472 . 1 33 . 20 473 8 34 . 53 496 1 34 40 497 8 GR 34 0 503 . 9 34 . 02 507 . 8 34 . 34 520 0 34 . 26 530 5 34 53 545 0 GR 34 6 547 .2 35 . 89 550 .5 44 . 33 575 0 45. 37 583 9 45 05 593 4 NH 2 .05 53 .3 . 03 730.8 XI 520 0 93 . 0 197 .0 207 . 0 258 . 1 264 3 261 .5 GR 63 4 . 0 62 . 05 2 . 1 59. 93 4 8 57. 43 8 5 56 67 14 8 GR 56 3 17 .4 54 . 27 20 .6 54 . 02 21 1 53 . 67 23 7 51 94 35 3 GR 50 8 39 . 0 49. 56 42 . 7 45. 51 53 8 45. 20 61 2 44 87 70 1 GR 42 6 76 .4 42 . 31 76 . 9 42 . 06 79 5 40. 50 93 8 39 93 100 1 GR 38 6 112 ,2 38 . 28 118 .6 38. 05 127 0 37. 85 132 2 37 77 136 5 GR 36 6 143 . 8 36. 10 147 . 0 35. 56 155 4 35. 18 160 7 35 02 153 4 24JUL02 14:43:56 PAGE 24 GR GR GR GR GR GR GR GR GR GR GR GR GR GR 34.8 31.8 31.8 34.5 35.3 36.0 36.5 36.3 36 . 9 37.2 37.7 37 .1 44 .4 45 . 9 169.7 198 .1 207.0 242 . 9 302.4 333 . 3 338.3 445.2 509.0 560.6 598.1 648.6 692 . 3 718.2 34.39 30.69 33 .75 34.55 35.35 35.29 36.26 36.41 36.91 37.80 37.67 36 . 99 45.66 46.98 132 .3 199.7 219.7 245.0 307.7 349.8 400 .4 455.8 519.5 573 .8 610.7 654 .4 701.3 726 .5 34 . 32 30.68 33 . 91 35 . 01 35.42 36.57 36 . 05 36.67 36.77 37.48 37.81 38.23 46.82 47.02 186.6 201.3 220.3 265 . 0 315 .1 363.0 423 . 0 473 .7 532 .7 579.5 517 . 0 552 .3 705 . 0 730.8 33.22 30.66 34.11 35 .15 35.74 36.74 36.05 36 . 31 36.66 37.33 37.59 39.60 46 . 83 192 .3 205.5 221. 8 274 . 0 329.3 371. 5 423 .2 482 .7 545 . 9 582 .2 628.6 670.2 707.6 32 .47 31.78 34.31 35.33 35.35 36.69 36.05 36.93 36.80 37.44 37.39 41.21 46.83 197 . 0 207 . 0 232.3 286 .1 333.0 380.4 423.7 496.3 553.3 588.5 641.2 679.7 712.4 NH XI GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR 2 530.0 70.1 53 .6 50.0 42 .7 34.3 37.5 39.0 39.2 40.3 40.5 41.3 40 . 9 40.3 41.0 41.8 44 .1 52 . 9 .03 82 . 0 . 0 31. 7 54 . 5 82.2 110.3 133 .1 186.1 229.7 277.0 286.4 312 . 9 347.2 398 .1 450.5 506.1 537.3 558 . 0 549.2 104.5 55.52 53 . 06 49.82 42 . 06 31.89 37 . 74 39.01 39.27 40.56 40.44 41.42 40.51 40.26 41.56 42 .10 45.69 53 .12 .08 135.7 9.4 33 .2 54 . 7 90.0 113 .9 135.7 188.2 237.5 278 . 0 286 . 9 320 .1 361.2 401.2 472 .3 515.0 539.4 591. 8 591.3 291.8 65.32 53.07 45.55 40.68 35.40 38.56 39.11 39.50 40.59 40.52 41.35 40.58 40.33 41.61 42.69 46.21 233.4 9.9 35.4 68.2 95.2 121.2 155 . 5 203 . 8 253 .5 280.1 290.0 326.9 363 .3 404.8 473 . 9 525.3 548 .2 290.3 63 . 94 53.04 42 . 73 33 .70 36.67 38.63 39.15 40 .14 40.57 41.03 41.43 40.50 40.54 41.63 43.50 46.27 12 . 5 46.3 81.7 104.5 124 .3 163 .7 210.5 266 .1 283 . 8 299.3 334.2 369.5 424 . 6 475 . 5 534 . 7 549.2 58.29 50 .16 42 . 68 35. 97 35.83 38 . 63 39.15 40.12 40.53 41.11 41. 00 40.39 40.99 41.80 43 .77 48.52 22.4 54 . 0 81.7 107 . 7 124 . 8 163.5 211.5 274 . 9 285.3 303 .2 341.5 382.5 439.6 496.8 536.3 555.5 NH XI GR GR GR GR GR GR GR GR GR GR GR GR GR GR GR 3 540.0 83 .0 71.2 62.3 61.8 44.8 43 . 0 42.4 41.7 42.5 41.6 36.9 40.7 4-1. S 42 .4 43 .3 .03 87.0 .0 26.2 50.3 96 . 0 154.4 190.7 228.6 257.5 303.3 354 . 9 338.5 400.6 4^6.9 521. 7 583 . 8 600.6 384.3 82.35 67.39 62 .17 61.67 43 .52 42 .77 42.42 41.76 42.55 41.15 37.05 41.48 41. 98 42 .38 44 . 81 . 03 400.6 1.4 33 .4 53 . 9 106 . 0 158 .1 195.5 223 .6 274 .4 318 .5 370 .1 389.7 420.5 483 .3 541.5 594.7 639 316 . 8 81.23 65.79 62 .16 61.44 43.38 42 .66 42 . 05 41.78 42.39 40.95 37.47 42.22 41.99 42.87 44 .89 .03 307 . 7 3.5 34 . 9 67.1 111.8 173 .4 198 . 6 244.4 276.5 326.4 374.3 393 . 8 438.0 4 91.2 566.4 500.6 570.6 314.4 79.54 65 . 95 52.15 57.68 43.37 42.48 41.99 41.84 41.79 40.59 38.95 42 .21 42 .15 42.91 44 . 88 7.6 33 . 1 63.6 121.3 174.4 200.2 249. 1 273.6 341.2 384 . 3 396.5 440. 1 502 ,2 567.9 602 . 7 74.41 65.22 62.08 57.08 43.31 41.68 41.37 42 .61 41.81 37.67 39.97 42 .17 42 . 2 9 43 . 19 45.09 19.3 40.3 72 . 9 122 . 8 176.5 211.7 252.8 297.5 348 .1 387 . 5 398.5 443.3 513.3 583.2 604 . 8 I 24JUL02 14:43 :56 PAGE GR 47 3 615. 8 48 . 56 623 . 7 49.13 625. 8 48 . 84 627 4 47 . 95 631.6 M GR 51 4 639. 0 55. 26 643 . 0 56.19 650 6 56. 34 657 4 56. 56 659. 5 B GR 57 .8 663 . 7 60. 11 670. 6 B NH 3 . 03 103 .2 . 04 255. 1 . 03 774 .3 B XI 550 .0 96. 0 400 .4 515 3 236.5 235 2 231 . 0 GR 69 .3 0 68. 00 2 7 62 .76 14 9 61. 64 17 7 51. 68 18.7 • GR 61 .7 23 . 2 59. 81 28 7 59.57 29 8 58 . 96 37 0 53 . 80 33 . 7 B 58 .0 42. 5 55. 91 52 5 54 .87 53 6 53 . 13 59 0 53 . 19 81.2 GR 53 .0 93 . 3 53 . 06 95 0 53 .27 103 2 53 . 56 114 9 53 . 63 126 . 0 _ GR 54 . 0 134. 2 54 . 09 140 9 53 .79 150 8 53 . 58 152 4 53 . 60 159. 1 H 53 .4 165. 1 53 . 37 157 4 53 .16 172 4 53. 13 174 5 52 . 37 135. 0 GR 52 .9 191 7 52 . 41 194 4 51. 85 201 6 51. 03 203 3 50. 06 213 .7 GR 49 .4 219 2 48 . 28 227 5 48.10 235 8 47 . 59 255 1 47 . 47 255.8 H 47 .2 261 8 47 . 13 263 4 45.47 295 5 45. 37 298 3 45. 45 307.1 B GR 45 .2 310 3 44 . 88 312 5 46 317 49 322 49 340 GR 46 351 44 . 58 360 1 44 .45 361 1 44 . 37 351 7 43 .2 376.1 H GR 43 . 23 396 5 43 . 37 400 4 43 .08 400 9 42 . 24 401 5 42 .3 440.7 fl GR 42 . 25 449 5 42 . 27 509 1 42 .27 510 3 42 . 27 511 9 43 . 1 513 .5 GR 44 . 10 515 3 44 . 03 525 3 44 . 03 529 1 44 . 03 531 2 44 . 1 551.7 GR 44 . 11 558 3 44 06 580 4 44.06 593 5 44 . 30 513 5 44 .5 619.6 fl GR 45 . 90 640 6 45 21 643 3 45.50 647 2 47 . 14 653 3 47 .3 660.4 B GR 47 . 32 662 6 47 50 663 7 47.80 665 4 50. 83 685 8 53 .4 702 . 9 GR 54 . 39 710 1 53 66 713 5 52 .99 716 2 55. 21 722 3 56 .5 726.2 fl GR 53 . 68 733 3 62 41 745 0 67.77 764 2 63 . 09 765 4 69 .4 769.2 fl GR 70. 90 774 3 B NH 2 . 045 83 . 6 . 03 773.3 XI 560 .0 100 0 357 461 8 109.7 111 1 105.0 GR 70 . 7 0 70 26 1 0 70.05 1 3 69 23 2 8 60 . 08 18 . 3 B GR 59 . 1 20 0 56 55 25 5 56.74 34 2 56 72 34 3 54 . 20 47.4 B GR 52 .2 57 9 52 10 59 5 50 . 97 74 9 51 06 83 6 50. 48 91.9 GR 50 .4 92 4 49 47 94 .6 48 .94 95 7 48 94 97 4 49. 15 108 . 3 B GR 49 .5 110 0 50 10 112 2 50.32 113 8 50 56 lis 6 50. 73 120.4 fl 50 .2 144 0 50 15 149 .5 SO.36 169 .8 48 97 181 3 47 . 46 189.0 GR 46 .5 190 6 45 56 192 .4 45.56 193 4 45 55 254 4 45 . 55 256.0 ^ GR 45 .6 256 5 46 57 259 .3 46.48 264 .3 46 37 273 6 46 . 21 237.3 B GR 46 .0 296 0 45 49 311 .5 46 315 48 323 49 327 " GR 49 348 48 352 46 357 45 16 362 5 42 . 73 372 . 9 GR 42 . 24 375 1 42 25 398 .7 42.3 404 7 42 25 413 5 42 . 26 433 .1 B GR 42 . 26 438 3 42 51 441 . 5 43 . 9 447 .6 45 30 458 0 46. 50 461.8 1 GR 47. 54 468 4 48 69 475 . 1 50.0 485 .4 50 17 487 1 48 . 31 490.9 GR 47. 95 492 0 47 99 492 .6 47.7 503 . 0 49 74 505 8 50. 00 506.3 GR 50. 01 506 6 50 32 524 .6 49.8 531 . 8 50 33 549 3 50. 45 551.6 B GR 49. 92 555 3 48.5 559 .2 47.53 560 .9 47 31 571 8 47. 59 574 . 0 GR 48 . 23 574 .6 48 09 590 .0 47.48 593 . 1 46 14 610 8 46. 24 623 . 9 GR 46 .2 646 .5 46 04 554 .6 47.11 672 .8 49 90 692 .0 50. 49 595.9 B GR 53 .6 717 .3 54 00 720 . 0 56 .44 732 , 1 56 14 735 .3 56. 05 735.4 B GR • 62 .8 750 . 7 62 97 751 .2 63 .29 751 . 9 65 40 758 .5 70. 29 773.3 14:43:56 PAGE NC .03 . 03 03 XI 570 0 100 0 347 . 6 475 7 271 . 0 198 7 193 .6 GR 86 1 0 85 . 53 1 0 85. 36 1 5 84. 88 2 .0 84 .45 3.0 GR 85 2 4 6 35. 50 5 5 85 . 77 7 7 85. 90 8 .7 84 .60 13 . 9 GR 84 3 14 9 75 . 05 28 7 71 . 05 35 9 65. 43 45 .1 63 .56 50.2 GR 62 8 51 7 57. 02 54 5 53 . 42 72 2 54. 00 79 .4 54 .35 83.5 GR 54 3 87 1 54 . 88 105 0 55 . 01 112 2 54 . 83 133 .5 55 .05 142.9 GR 55 3 150 5 54 . 35 153 8 54 . 31 164 9 54 . 35 177 .7 53 80 184.4 GR 52 7 193 0 52. 07 197 6 51. 99 200 2 51. 30 204 .3 51 44 209.9 GR 51 3 213 5 51. 09 220 7 50. 44 235 0 50. 31 243 .2 50 29 246.3 GR 49 9 254 7 49. 74 272 4 49. 55 286 7 49. 09 305 . 1 49 00 309.8 GR 48 9 315 4 48 , 15 337 9 47. 69 347 6 47. 10 358 . 9 45 88 360.9 GR 45 5 361 5 45. 54 467 4 45. 54 469 5 45. 54 471 .5 45 99 472 . 0 GR 47 8 475 7 48 . 69 480 2 50. 39 490 5 50. 48 495 . 1 50 77 502.7 GR 51 0 510 8 51. 04 513 8 50. 16 533 5 49. 75 538 . 1 49 49 541.6 GR 47 8 558 3 47. 82 558 3 47 . 80 558 8 47 . 40 567 . 9 47 08 576.0 GR 47 4 590 7 48 . 25 597 3 49. 05 606 9 49. 62 512 .4 49 39 627.6 GR 49 2 630 6 48 . 86 633 7 48 . 19 647 8 47 . 56 658 .4 47 .55 660.0 GR 47 3 670 1 47 . 01 691 3 46. 98 697 4 45 . 80 703 ,9 46 81 742 . 9 GR 46 9 749 0 47 . 00 773 3 47. 85 800 .5 48. 10 804 . 1 48 94 310.1 GR 50 5 819 .2 53 . 02 830 4 53 . 01 830 .9 52 . 90 836 . 9 55 94 845.6 GR 58 8 849 .6 58 . 78 851 6 53 . 96 855 .7 63 . 91 866 .3 67 .14 373 .4 ET 9 . 1 265 485 NH 4 .03 312 .4 . 015 342 .7 .04 480 .7 .03 710.1 XI 580 0 94 . 0 33C . 3 342 9 279.4 246 . 0 247 .5 GR 71 6 . 0 71 51 4 9 71 36 16 .3 71. 40 22 .3 71 .38 27.7 GR 71 4 28 .8 71 54 34 8 67 85 42 .4 67. 51 43 .4 61 .81 53.2 GR 50 6 54 . 9 56 97 61 9 56 35 61 . 9 54 . 46 66 .3 54 .94 68.4 GR 55 9 72 .7 55 26 83 1 54 87 89 . 1 54 . 73 91 .3 54 .63 93 .4 GR 53 8 109 .7 53 77 110 3 53 76 110 .4 53 . 72 120 . 1 53 .72 120.2 GR 53 3 131 . 1 53 03 147 4 52 87 154 . 9 52 . 74 159 . 9 51 .94 180.4 GR 51 8 195 . 1 51 75 203 8 51 40 223 . 8 51. 39 224 .4 51 33 226.1 GR 51 4 247 .7 51 45 258 1 51 46 263 . 0 52 . 46 272 .7 53 03 279.2 GR 53 4 283 .5 53 34 287 4 53 04 296 . 6 52 . 73 300 . 9 51 .77 311.3 GR 51 7 311 . 8 51 73 311 8 51 68 312 .4 49. 50 330 .3 47 .79 333 . 0 GR 47 1 334 . 1 47 08 338 4 47 10 333 . 9 47. 38 339 . 5 49 . 17 342 .7 GR 49 2 342 . 9 49 34 343 4 49 68 345 . 1 49. 72 346 . 1 50 .03 354.8 GR 50 3 370 .5 50 18 333 5 50 19 383 .4 50. 19 391 .7 49 30 431.3 GR 49 2 434 . 0 49 17 435 6 48 98 456 .3 48 . 91 472 . 0 43 .95 480.7 GR 49 2 498 . 5 49 23 507 2 49 07 517 . 1 48. 95 527 .9 48 . 91 541.5 GR 49 0 545 . 8 49 11 551 3 49 21 554 .5 49 31 559 .4 49 .26 565.3 GR 49 .2 569 .0 49 15 585 2 49 95 599 . 9 50. 01 603 .0 50 .43 605.6 GR 52 .0 626 .5 61 29 663 1 62 63 671 .4 53 53 675 . 1 63 .37 676.1 GR 62 .9 680 .3 56 48 694 9 69 05 706 .9 69 52 710 . 1 24JUL02 27 ET 9 1 65 135 NH 5 . 03 94 .2 .015 109 .3 .03 250 .5 .04 343 .5 .03 NH 565 2 XI 590 0 98 0 44 . 7 140 0 255 .4 251 . 1 248 .9 GR 58 3 0 58. 19 5 3 58 . 13 8 . 3 53 . 02 15 . 1 57 87 23.4 GR 57 5 36 4 57 . 32 44 7 56. 09 55 . 7 55, 57 59 .8 54. 83 73.4 GR 54 5 77 .0 54 . 32 77 6 52 . 70 92 . 1 52 . 70 94 .2 51. 62 96.2 GR 49 7 99 .4 49. 67 103 0 49. 68 104 . 0 50 . 28 104 .7 53 . 03 109.3 GR 53 1 109 . 9 53. 61 112 4 55 . 30 122 .4 58 . 70 140 .0 58 . 90 141.1 GR 59 1 142 .2 61. 37 153 6 51. 72 155 . 1 51. 74 155 .7 62. 60 175.4 GR 62 5 186 .4 62 . 39 193 9 52 . 05 198 . 9 60. 53 207 .0 60. 40 208 . 1 GR 60 0 217 .4 59. 76 219 7 59. 47 223 . 6 58 . 43 239 . 1 53 . 43 239. 1 GR 57 8 244 . 9 57 . 59 253 0 57 . 68 253 .6 57 . 67 253 .6 57 23 250.5 GR 56 3 310 .3 55. 18 323 6 55 . 84 343 .5 55. 91 347 . 0 56 94 358.6 GR 57 0 362 .5 57. 30 372 9 57 . 32 373 .4 57. 33 374 .0 57 40 379.7 GR 57 4 383 .7 57. 45 385 5 57. 49 383 . 9 56. 70 3 92 .4 56. 43 393.5 GR 56 5 395 .8 56. 57 403 3 56. 58 403 . 9 56. 59 406 .2 56 94 407.4 GR 57 4 409 . 0 57. 95 411 9 57. 99 413 .7 58 . 05 414 .3 58 52 422 .2 GR 58 8 425 .6 59. 10 429 1 60. 02 433 .3 50. 05 439 .5 60 11 440.6 GR 60 0 442 . 9 59. 69 444 5 59. 15 452 .7 58 . 93 459 .5 58. 62 468 .1 GR 58 4 471 . 0 58 . 13 475 8 57. 75 482 .5 57. 49 488 . 8 57. 32 491.3 GR 57 3 501 .4 57 . 28 503 8 57. 56 505 .5 59. 14 517 .6 50. 97 525.0 GR 62 1 529 . 1 65 . 43 538 7 65. 81 539 . 9 65. 86 541 .0 66. 39 546.2 GR 58 6 552 .0 71 . 28 558 3 73 . 95 565 .2 14:43:55 PAGE 28 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST •PROF 1 CRITICAL DEPTH TO BE CALCULATED AT ALL CROSS SECTIONS 1490 NH CARD USED •SECNO 10.000 1553 STARTING NC CARD OMITTED 3280 CROSS SECTION 10.00 EXTENDED 3.37 FEET 3470 ENCROACHMENT STATIONS- 1.0 10.000 14.18 15.27 13.45 14700,0 950.2 8728.6 5011.2 .00 3.33 7.03 5.48 .001494 0. 0. 0. 427.2 TYPE- 1 TARGET- .00 16.90 .63 288.1 1232.5 914.3 .030 .040 .030 0 14 0 426 .200 .00 .00 .0 .0 .000 2.09 .00 426.20 13 . 95 10.43 1. 00 427.20 FLOW DISTRIBUTION FOR SECNO-10 . 00 STA- PER Q= AREA- VEL- DEPTH- 1. 3.2 147.6 3.2 2.3 65. 120. 3 . 0 126 . 1 3 . 5 2.4 127 . .3 59.4 14.5 1232.5 2.8 7.1 2.1 11.3 236. 282 . 298 . 344 . 427. 3 5 6 3 3 8 3 1 7 4 10 0 92 3 132 5 78 9 80 8 208 7 321 0 5 5 7 0 7 1 5 6 5 2 4 6 5 7 7 0 7 2 5 1 4 5 3 9 1490 NH CARD USED •SECNO 20.000 1553 STARTING NC CARD OMITTED 3265 DIVIDED FLOW 3280 CROSS SECTION 20.00 EXTENDED 1.76 FEET 3470 ENCROACHMENT STATIONS-43 . 0 607 0 TYPE- 1 TARGET-564 000 20.000 14.49 15.58 14 . 08 .00 17.02 .44 . 12 . 00 13 40 14700.0 1291.8 7754.4 5553.8 3 32.4 1285.8 1221.6 5.4 1 . 0 12 00 . 00 3.38 6.03 4.63 030 .041 . 030 . 000 2 . 09 43 00 .001209 89. 88 . 87. 2 9 0 . 00 550.77 507 00 24JUL02 14:43:56 29 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST FLOW DISTRIBUTION FOR SECNO- STA- 43. 95. 168. 204. 323. 342. 436. PER Q- 3.1 3.1 2.6 52.8 4.0 16.5 12.2 AREA- 140.1 134.5 107.8 1235.3 106.8 477.8 403.0 VEL- 3.3 3.4 3.5 6.0 5.4 5.1 4.4 DEPTH- 2.7 1.9 3.0 10.8 5.6 5.1 4.1 536. 607. 5 . 7 229.0 3.7 3.2 1490 NH CARD USED •SECNO 30.000 1553 STARTING NC CARD OMITTED 3470 ENCROACHMENT STATIONS- 120.0 30.000 14.73 16.33 14.21 14700.0 1784.9 6746.5 6163.7 .01 3.88 5.04 3.78 .000372 106. 109. 106. 777.2 TYPE- 1 .00 17.13 459.7 1339.3 .030 .042 2 ' 10 TARGET-657 200 .30 . 11 .00 12 55 1631.6 13 .1 2.4 12 90 . 030 .000 2 .10 120 00 0 . 00 643.34 763 84 FLOW DISTRIBUTION FOR SECNO-16.83 161. 199 . 225. 346. 373 . 568 . 668 . 758 . 1490 NH CARD USED •SECNO 40.000 1553 STARTING NC CARD OMITTED 754 . PER Q= 4 6 4 3 3 2 45 9 4 3 14 9 11 4 7 4 3 9 0 AREA-111 4 163 3 119 0 1339 3 145 7 496 6 432 8 332 8 213 5 5 2 VEL-3 8 3 9 4 0 5 0 4 3 4 4 3 9 3 3 2 6 1 4 DEPTH-4 3 4 3 4 5 11 1 5 4 5 2 4 3 3 3 2 4 9 3470 ENCROACHMENT STATIONS-189.0 865.0 TYPE 1 TARGET-575 000 40.000 14 . 91 16.91 13 . 89 .00 17.23 .32 . 10 . 00 13 83 14700.0 253 .6 5823.4 7623 . 0 106.0 1323.1 1937.5 22 .2 4.2 13 00 . 02 2.39 5. 16 3 . 93 . 030 .041 . 030 .000 2 . 00 189 00 .000848 116 . 115. 116. 2 16 0 . 00 643.32 832 32 FLOW DISTRIBUTION FOR SECNO-40 . 00 CWSEL-16.91 24JUL02 14:43:56 PAGE 30 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST STA- 189 246 364 391 430 . 521. 632 . 732 . 819. 832 PER Q-1.7 46.4 4 8 7 8 14 9 12 9 7 6 3.7 . 1 AREA-106.0 1323.1 153 3 238 4 492 5 489 7 341 2 209.8 12.7 VEL-2.4 5.2 4 6 4 3 4 4 3 9 3 3 2 . 6 1.4 DEPTH-1.9 11.2 5 7 6 1 5 4 4 4 3 4 2.4 1 . 0 1490 NH CARD USED •SECNO 50.000 1553 STARTING NC CARD OMITTED 3265 DIVIDED FLOW 3470 ENCROACHMENT STATIONS-204 . 0 885.0 TYPE 1 TARGET-581 000 50.000 15.05 17. 10 13 .12 . 00 17.33 .24 . 10 . 00 16 03 14700.0 414.6 5128.5 9155.9 173 .3 1114.4 2585.3 34 . 0 5.3 11 50 . 03 2.39 4.60 3.54 . 030 . 040 .035 .000 2 . 05 204 00 .000642 132 . 142 . 144 . 2 14 0 . 00 656.25 885 00 FLOW DISTRIBUTION FOR SECNO-50.00 17.10 STA- 204. 268. 366. 383 PER Q= 2.8 34.9 3.4 AREA- 173.3 1114.4 113.1 VEL- 2.4 4.6 4.4 5.0 DEPTH- 2.7 11.4 6.7 8.1 394. 438. 457. 488. 535. 555. 3.1 10.7 4.3 6.6 10.1 4.6 3.5 89.1 327.6 135.8 213.8 326.4 143.4 114.0 571. 594. 631. 3.2 3.2 147.5 201.9 4.8 7.4 4.7 7.1 4.5 5 . 9 4.6 6.9 4.7 7.2 4.6 7.0 3.2 6.4 2.3 5.5 STA- 631. PER Q= 4.6 AREA- 3 2 6.5 VEL- 2.1 DEPTH- 4.7 701. 798. 885. 3.7 1.3 328.0 118.2 1.7 1.7 3.4 1.4 1490 NH CARD USED •SECNO 60.000 1553 STARTING NC CARD OMITTED 3230 CROSS SECTION 60.00 EXTENDED 10.12 FEET 24JUL02 14:43:56 PAGE 31 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 34 95 OVERBANK AREA ASSUMED NON -EFFECTIVE, ELLEA-13 . 84 ELREA-7 . 84 60.000 15.23 17.23 13 . 09 . 00 17.44 .21 . 10 . 00 18.84 14700.0 .0 4554.8 10145.2 .0 1207 . 4 2829.2 49.8 8.9 7.34 .04 .00 3.77 3 . 59 .000 .035 .033 . 000 2.00 219.29 .000537 172. 173. 174 . 0 13 0 . 00 635.71 855 .00 FLOW DISTRIBUTION FOR SECNO-60.00 CWSEL 17 .23 STA- 21 9. 370. 385 403 . 414 . 425 . 440 . 455. ii is. 509 535. PER Q= 31.0 4.3 5.7 3.6 3 4 4.5 5. 0 7.3 4.2 4.0 3 AREA-1207.4 147.7 164.3 103.7 98 6 134.4 147. 1 232.5 155. 1 155.2 149 VEL-3.8 4.3 5.1 5.1 5 0 5.0 5. 0 4 . 6 3 . 9 3.8 3 DEPTH-8.0 9.5 9.3 9.3 9 2 9.1 9. 0 8.1 5.4 6.1 5 560. 601. 5.7 230.0 3.6 5.5 STA- 601. 628. 664. 731. PER Q= 3.5 4.9 4.4 3.6 AREA- 145.6 199.6 330.3 309.7 VEL- 3.5 3.5 2.0 1.7 DEPTH- 5.4 5.5 5.0 4.1 807. 855. 1.1 125.4 1. 3 2.6 1490 NH CARD USED •SECNO 70.000 1553 STARTING NC CARD OMITTED 3255 DIVIDED FLOW 3280 CROSS SECTION 70.00 EXTENDED 4.36 FEET 3 302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO ?5 OVERBANK AREA ASSUMED NON-EFFECTIVE, ELLEA-18 .53 ELREA-10.33 70.000 15 . 07 17 . 16 12 .48 . • 00 17.65 .49 .21 . 00 18 53 14700.0 .0 4652.2 10047.8 .0 1252.4 1500.5 67.2 11.6 10 33 . 05 . 00 3 .71 6.28 . 000 .083 . 036 . 000 2 . 09 236 55 .002198 208 . 220 . 220 . 2 20 0 .00 441,30 993 75 24JUL02 14:43:56 PAGE 32 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST FLOW DISTRIBUTION FOR SECNO-70.00 17 ,16 STA- 237. 275. 365. 377. 389. 415. 422. 433. 445. 461. 478. 488. 666. PER Q- 3.7 27.9 3.1 4.9 11.7 3.2 5.4 5.4 7.1 7.3 3.5 6.7 AREA- 114.1 1138.4 78.7 84.1 193.9 52.1 87.2 89.5 118.3 122.3 78.6 225.0 VEL- 4.8 3.5 5.8 8.5 8.9 9.0 9.0 8.9 8.8 8.8 6.5 4.3 DEPTH- 3.0 12.6 6.6 7.0 7.5 7.7 7.7 7.5 7.4 7.4 7.3 1.3 STA-920. 994 . PER Q-4 4 4 4 1 3 AREA-157 2 211 8 100 9 VEL-4 1 3 1 1 8 DEPTH-6 6 9 1 4 1490 NH CARD USED •SECNO 80.000 1553 STARTING NC CARD OMITTED 3265 DIVIDED FLOW 3280 CROSS SECTION 8 0.00 EXTENDED 1.3 9 FEET 3302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO -1.61 3495 OVERBANK AREA ASSUMED NON-EFFECTIVE, ELLEA-19.30 ELREA-10 . 00 80.000 15.40 17.49 13.03 . 00 17.74 .25 . 10 . 00 19 30 14700.0 .0 2377.5 12322.5 . 0 1104.6 2871.9 73 . 1 12 .4 10 00 . 06 . 00 2.15 4.29 . 000 . 099 . 033 . 000 2 . 09 246 58 .000847 70 . 75. 76. 2 13 0 . 00 566.77 993 35 FLOW DISTRIBUTION FOR SECNO-CWSEL- 24JUL02 14 :43 :55 PAGE SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST STA- 247 339 355 370 412. 423 . 453 . 474 . 662. 680 712 . 742 . 787 PER Q= 16 2 3 .1 3 7 3 0 3 2 3 4 5 5 7 . 5 4.4 7.9 7 1 9 .3 AREA- 1104 6 96.3 113 7 101 1 83 8 223 6 150 8 263 . 0 125,3 221,3 202 3 230 .5 VEL-2 2 4 . 8 4 6 4 4 5 6 5 5 5 4 4.3 5.2 5.2 5 2 4 . 9 DEPTH-11 9 6.3 7 7 2 4 7 8 7 5 7 2 1.4 6.8 6.9 6 3 6 .2 STA- 787 811 838 885 924. 960 . 993 . PER Q-4 0 4.2 4 0 3 4 3 2 1 6 AREA-129 7 143 . 5 235 9 198 5 185 2 112 4 VEL-4 5 4 . 3 2 5 2 5 2 5 2 2 DEPTH-5 5 5.2 5 0 5 1 5 2 3 4 1490 NH CARD USED •SECNO 90.000 1553 STARTING NC CARD OMITTED 3265 DIVIDED FLOW 90.000 15.63 17.72 12.63 . 00 17 . 91 . 19 .16 .00 16 69 14700.0 54.2 3222,8 11423.0 49.9 1119.8 3127.0 92.6 15.3 11 45 .07 1.09 2.88 3.65 .030 . 070 .039 . 000 2 .09 101 36 .000746 220. 207 . 205 . 2 18 0 .00 661.35 998 25 FLOW DISTRIBUTION FOR SECNO-CWSEL-17 . 72 STA- 101. 176. 267. PER Q= .4 21.9 4.1 AREA- 49.8 1119.8 172.4 VEL- 1.1 2.9 3.5 DEPTH- .7 12.4 2.6 372 . 3 7 11 5 8 5 7 0 5 1 5 1 4 1 7 5 3 7 91 7 280 5 253 3 224 5 161 0 172 4 222 7 353 3 182 7 6 0 6 1 5 0 4 6 4 6 4 4 2 7 3 0 3 0 9 3 9 5 8 9 1 2 6 4 5 8 6 3 7 4 7 4 STA-755. 900. 998 . PER Q-3 3 5 1 3 1 3 5 2 3 AREA-161 4 250 3 178 9 241 3 170 0 VEL-3 0 3 0 2 5 2 1 2 0 DEPTH-7 3 7 2 5 5 4 4 1 7 1490 NH CARD USED •SECNO 100.000 24JUL02 14:43:56 PAGE 34 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 1553 STARTING NC CARD OMITTED 3265 DIVIDED FLOW 100.000 15 . 60 17 . 85 12 . 35 . 00 17.97 . 12 .05 00 13 03 14700 . 0 827.5 2339.6 11532.9 302 . 0 1000.7 4015.9 105.4 17 .2 11 84 . 09 2 . 74 2 .34 2.37 .030 .070 . 039 .000 2. 25 10 19 .000428 125 . 118 . 115. 2 22 0 . 00 755. 51 872 70 FLOW DISTRIBUTION FOR SECNO-CWSEL- STA- 10. 59. PER Q- 3.5 2.1 AREA- 194.5 107.5 VEL- 2.7 2.9 DEPTH- 4.0 4.7 82. 157. 248. 266. 343. 15.9 3.6 5.7 4.9 6.3 1000.7 323.3 179.9 219.4 196.3 2.3 3.3 4.7 3.3 4.7 13.3 3.6 9.8 2.9 9.8 363. 388. 409. 440. 475. 513. 6.7 5.2 5.7 3.7 4.7 220.3 131.5 219.2 219.3 293.0 4.5 4.2 3.3 2.5 2.3 9.1 8.3 7.2 6.2 7.6 STA- 513. 548 PER Q= 4.1 AREA- 250.7 VEL- 2.3 1.9 DEPTH- 7.6 5.4 593. 644. 3.1 4.4 4.4 244.3 320.3 301.5 689. 719. 2 . 0 6.2 2 . 1 6,7 3.1 204.2 2.2 7 . 0 3.4 265 . 9 1.9 5.3 3. 826. 873. 3.3 1.2 230.5 80.4 1.7 2.3 4.9 1.7 1490 NH CARD USED •SECNO 110.000 1553 STARTING NC CARD OMITTED 110.000 15.72 17.92 11.98 .00 18.01 .10 .04 .00 12.06 14700.0 480.0 2059.9 12150.1 208.4 938.3 4768.4 120.1 19.3 10.63 .10 2.30 2.08 2.55 .034 .070 .040 .000 2.20 2.34 .000323 118. 114. 114. 0 12 0 .00 810.81 813.15 FLOW DISTRIBUTION FOR SECNO-110.00 17.92 24JUL02 14:43:56 PAGE 35 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST STA-2 . 44 47 120. 148 . 163 . 177 . 191. 211. 229 256. 276. PER Q-3 . 1 .2 14 . 0 5 1 4 5 3 9 3 . 7 5 .3 4 . 9 7. 3 5 0 4 0 AREA-186 . 7 21.7 933 .3 245 5 156 4 139 4 135. 1 193 . 1 178.5 263. 1 185 6 313 8 VEL-2 .4 1.2 2 .1 3 7 4 3 4 1 4 . 1 4 . 0 4 . 0 4 . 1 4 0 1 9 DEPTH-4 . 5 5.9 13 .6 8 9 10 5 9 9 9. 8 9 .7 9 . 5 9. 3 9 5 6 8 STA- 322. 351 339 441. 431. 533. 579. 624 . 665. 721 813. PER Q-3 .4 4.3 4 .8 3 3 5 1 4 5 4 . 2 3 .4 3.2 1. 8 AREA-233 . 5 304 .1 355 .6 264 3 379 3 333 3 319. 9 270 . 1 291.1 195. 2 VEL-2 . 1 2 .1 1 . 9 1 8 2 0 2 0 1. 9 1 . 8 1.6 1. 4 DEPTH-8 . 1 8 . 0 7 . 1 6 6 7 2 7 3 7 . 0 6 .6 5 . 3 2 . 1 14 90 NH CARD USED •SECNO 12 0 000 1553 STARTING NC CARD OMITTED 120.000 15 . 58 17 . 95 13 . 02 .00 18 . 08 . 13 . 07 . 00 11 . 77 14700.0 346 . 0 2107.4 12246.6 147 . 0 867.5 4081.1 142 . 1 22 .4 10 .78 . 12 2.35 2 .43 3 . 00 . 036 .070 . 040 . 000 2.27 22 .53 .000496 183 . 180 . 171. 2 18 0 . 00 742.40 764 . 93 FLOW DISTRIBUTION FOR SECNO-120.00 STA- 23. PER Q- 2.4 AREA- 147.0 VEL- 2 .4 DEPTH- 3.9 60. 131. 14.3 4.7 867.5 168.8 2.4 12 . 3 4 . 1 7.2 154. 169 3.3 112.6 4 . 3 7 . 5 195. 215 3.7 3.0 211.0 165.3 2.6 2.7 8.0 8.4 237. 266 3.2 3.4 179.3 205.8 2.6 2.4 8.0 7.2 319. 367 5.3 5.4 344.5 335.6 2.3 2.3 6.5 6.9 402. 441. ' 4.3 4.8 257.5 286.3 2.5 2.4 7.5 7.3 STA-520. 541 . 561. 651. PER Q= 3 0 4 5 6 2 4 2 3 8 3 2 3 6 3 5 3 6 4 5 2 3 AREA-177 2 206 5 213 7 149 4 139 4 124 5 139 9 143 7 166 3 219 6 134 1 VEL-2 5 3 2 4 2 4 1 4 0 3 8 3 7 3 6 3 2 3 0 2 5 DEPTH-7 5 7 8 7 5 7 2 6 8 6 4 6 2 5 9 4 3 4 5 2 4 1490 NH CARD USED •SECNO 130.000 1553 STARTING NC CARD OMITTED 130.000 15.75 18.02 12.79 .00 13.13 .11 14700.0 350.2 2548.1 11801.6 185.6 986.0 4323.6 .13 1.89 2.58 2.73 .030 .050 .033 .000282 135. 130. 127. 1 17 0 .05 . 00 14 00 157.6 24 .7 11 36 . 000 2 .27 23 98 .00 840.85 864 34 24JUL02 14:43:56 PAGE 36 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST FLOW DISTRIBUTION FOR SECNO- STA- PER Q- AREA- VEL- DEPTH- 24 . 2 . 4 135 . 6 1.9 3.3 81. 159. 17.3 3.5 985.0 174.7 2 . 6 12 .7 2 . 9 6.5 185. 216 4.6 216.5 3 . 1 7 . 1 233. 257. 3.2 3.1 3.1 138.8 215.1 228.6 3.3 2.1 2.0 8.1 3.7 3.1 286. 327. 356. 372. 406. 426, 4.3 3.4 3.3 6.3 3.6 324.4 233.1 139.9 273.9 159.4 2.0 2.1 3.4 3.4 3.3 7.8 3.4 8.4 3.1 7.9 STA-447. 474 . 499. 529. 642 . 671. 700 . 865 . PER Q-3 5 3 7 3 3 4 0 4 3 4 0 3 4 4 0 3 4 3 6 3 2 1 6 AREA-159 1 182 4 166 1 202 0 216 6 190 2 163 1 200 0 178 3 185 7 179 9 190 6 VEL-3 2 3 0 2 9 2 9 2 9 3 1 3 0 3 0 2 8 2 9 2 5 1 2 DEPTH-7 6 6 8 6 6 6 7 6 6 7 0 7 0 6 7 6 3 6 3 5 5 1 4 1490 NH CARD USED •SECNO 140.000 1553 STARTING NC CARD OMITTED 140.000 12.00 13.10 12.83 .00 18.19 .09 .06 .00 11.10 14700.0 153.2 9986.3 4560.5 147.1 4128.9 1829.7 192.5 30.0 9.63 .16 1.04 2.42 2.49 .047 .032 .030 .000 5.10 41.87 .000188 280. 274. 250. 2 12 0 .00 921.72 963.59 FLOW DISTRIBUTION FOR SECNO-CWSEL-18 .10 STA- 42. PER Q- 1.0 AREA- 147.0 VEL- 1. 0 DEPTH- 2.8 95. 154 7.9 509.6 1. 9 10.4 650. 669 60.0 3.1 3519.3 161.3 2.5 2.8 7.1 8.4 695. 733 4.0 5.4 215.7 295.4 2.7 2.7 8.1 7.9 762. 803. 841. 894. 4.1 5.5 4.6 3.8 .6 223.2 310.2 268.9 271.6 83.4 2.7 2.6 2.5 2.0 1.0 7.8 7.5 7.1 5.1 1.2 1490 NH CARD USED •SECNO 150.000 1553 STARTING NC CARD OMITTED 150.000 11.43 18.12 13.12 .00 18.22 .10 .03 .00 13.99 14700.0 585.9 10916.6 3197.5 263.5 4439.7 1222.2 210.6 32.8 9.91 .17 2.22 2.46 2.52 .030 .031 .030 .000 6.69 12.18 .000217 134. 146. 90. 0 11 0 .00 975.09 987.28 24JUL02 37 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH hROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST FLOW DISTRIBUTION FOR SECNO-150.00 13 . 12 STA-12 . 51 66 763 . 820 . 846 . 878 . 920 . 987 . PER Q-3 . 1 .8 74 3 9 2 3 8 4 3 3.5 1.0 AREA-199 . 0 64.5 4439 7 461 8 194 7 232 2 225 . 5 107.3 VEL-2 .3 1.9 2 5 2 9 2 9 2 7 2.3 1.4 DEPTH-5 . 1 4.3 6 4 8 1 7 8 7 1 5.4 1.6 •SECNO 160 . 000 160.000 11. 91 18 .18 12.59 . 00 18.24 .05 . 02 .00 11 23 14700.0 959.7 11662.0 2078.3 559. 1 5882.2 1164.1 232 .1 36.1 10 00 . 19 1.72 1.98 1.79 . 030 .030 .030 . 000 6.27 24 47 .000115 151. 147. 95 . 2 11 0 . 00 1142.73 1157 19 FLOW DISTRIBUTION FOR SECNO-160.00 18 .18 STA- 24. 82. 123. 126. 938. PER Q- 3.1 3.2 .3 79.3 4.6 AREA- 278.3 258.6 22.2 5882.2 320.3 VEL- 1.6 1.8 1.9 2.0 2.1 DEPTH- 4.9 6.3 6.7 7.2 7.9 1014 . 1065. 3.5 259.1 2.0 7.3 3.4 296.4 1.7 5.7 2.6 288.3 1.3 2 . 8 •SECNO 170.000 3265 DIVIDED FLOW 170.000 14700.0 .22 .000189 11. 98 2373.6 2 .27 251. 18.20 10344.2 2 . 08 203 . 13.33 1982.1 1. 97 215. . 00 1047.1 . 030 1 13 .27 4971.2 .030 14 .07 1005.9 . 030 0 .03 267.4 .000 . 00 .00 42 .4 6 .22 1443.97 8 . 51 10.89 27.37 1530.44 FLOW DISTRIBUTION FOR SECNO-CWSEL- STA- 27. 297. 332. PER Q= 3.7 4.4 5.1 AREA- 381.0 252.7 257.1 VEL- 1.4 2.5 2.3 DEPTH- 1.4 7.2 8.3 5. 381. 1308. 3.0 70.4 3.4 146.3 4971.2 205.4 3.0 2.1 2.4 9.1 5.4 5.6 1339. 1431. 1495. 1 6.5 3.1 .5 468.6 264.0 67.9 2.0 1.7 1.1 5.1 4.1 1.9 24JUL02 PAGE SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 1490 NH CARD USED •SECNO 180.000 3265 DIVIDED FLOW 180.000 12 .14 18 .23 13.54 . 00 18.29 .06 .03 . 00 12 81 14700.0 1814 .1 12134.2 751.7 1406.8 5882.0 588.2 291.4 47.2 12 70 .24 1.29 2 .06 1.28 . 040 . 031 . 030 .000 6 . 09 145 48 .000177 145 . 145 . 100. 1 14 0 . 00 1571.22 1744 67 FLOW DISTRIBUTION FOR SECNO- 180.00 CWSEL-13 .23 STA- 145. 295. 378 PER Q= 3.2 4.1 AREA- 325.5 349.1 VEL- 1.4 1.7 DEPTH- 2.2 4.2 435. 529. 1516. 1732. 1 3.7 1.4 82.5 5.0 .1 514.6 216.5 5332.0 574.0 14.2 1.1 1.0 2.1 1.3 .8 4.8 4.9 5.0 2.7 1.1 1490 NH CARD USED •SECNO 190.000 3255 DIVIDED FLOW 3302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO . 50 190.000 11.81 18.21 15.35 .00 18.33 .12 .04 14700.0 2254.8 1831.0 10564.2 1180.5 617.9 3635.0 311.3 .25 1.91 3.04 2.87 .043 .048 .030 .000 .000487 130. 130. 130. 2 16 0 .00 .00 51.7 6.40 14.10 12.00 159.87 1457.93 1628.84 FLOW DISTRIBUTION FOR SECNO- 190.00 CWSEL- 24JUL02 14:43:56 39 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST STA- 160 450 498 . 566. 513 . 676. 705 . 743 . 778. 884 917. 961. 1023 PER Q-6 4 3 1 3 6 2 3 12 8 3 . 2 4 . 5 5.4 15.7 4 .1 3 9 3 7 AREA-362 .8 267 2 331 8 218 7 617 9 145 5 200 .9 215.5 637.5 179.5 191 1 218 5 VEL-2 . 5 1 7 1 6 1 5 3 0 3 2 3 .3 3 . 7 3.6 3.4 3 0 2 5 DEPTH-1 . 3 5 .6 4 9 4 7 9 8 5 0 5 .3 6 .1 6 . 0 5.4 4 4 3 5 STA- 102 3 1113 1193 . 1257. 1369 . 1450. 1485 . 1577. 1629. PER Q= 5 . 6 3 . 9 3 4 4 6 4 5 3 0 4 . 7 .7 AREA-354 . 0 245 .7 209 2 310 2 271 2 153 1 239 .0 64 .1 VEL-2 . 7 2 .3 2 4 2 2 2 5 2 9 2 .4 1.5 DEPTH-3 . 9 3 .1 3 3 2 8 3 3 4 4 3 . 1 1.2 •SECNO 200.000 200.000 11 .51 18 .30 14 . 72 . 00 18.39 . 09 . 05 . 00 13.70 14700.0 5164.4 1513.5 8022.1 2050.7 637 . 6 3453 . 8 332 .4 56.8 11. 04 .27 2 . 52 2 . 37 2 .32 .030 . 045 . 030 . 000 6.79 301.84 .000287 150. 160. 162. 2 18 0 . 00 1358.55 1660.39 FLOW DISTRIBUTION FOR SECNO- 200.00 CWSEL 18 . 30 STA- 3 02 390 644 . 721. 790. 813 . 899. 934 . 995. 1108 1158. 1278 . 1424 PER Q-3 . 1 26 .2 5 8 10 3 3 3 9 9 3 .3 5 . 5 13 . 9 3.2 4 1 3 3 AREA-243 .1 1443 . 0 359 6 637 6 159 3 522 4 187 .2 320.1 712 . 0 211. 9 342 4 329 3 VEL-1 . 9 2 . 7 2 4 2 4 3 1 2 8 2 . 5 2 . 5 2 . 9 2.2 1 7 1 5 DEPTH-2 . 8 5 . 7 4 7 9 3 7 0 6 1 5 . 5 5.2 6.3 4.2 2 9 2 3 STA- 1424 1562 1623 . 1660. PER Q-3 . 8 3 .5 . 9 AREA-344 .2 240 . 8 84 .4 VEL-1 . 6 2 . 1 1 . 6 DEPTH-2 .5 4 . 0 2 .2 •SECNO 210.000 210.000 11 . 04 18 . 32 15.13 . 00 18 .45 .13 . 07 .00 16.73 14700.0 6003.0 2015.4 6681.7 1856 . 5 898 . 0 2468 . 7 355.5 62.5 16.85 .29 3.23 2.24 2 . 71 . 030 .045 . 030 . 000 7.28 316.43 .000463 168 . 177 . 199. 2 18 0 . 00 1291.03 1607.47 24JUL02 14:43:56 40 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST FLOW DISTRIBUTION FOR SECNO-210.00 STA- 316. 404. 547. 633. PER Q- 3.1 21.0 12.3 3.5 AREA- 209.3 871.0 512.9 180.5 VEL- 2.2 3.6 3.5 2.8 DEPTH- 2.4 6.1 6.0 4.3 675. 717 . 874 . 994 . 1048 . 1091. 1192 . 1237. 1320. 1 0 13 7 3 4 3 3 3 9 14 7 5 9 7 1 82 9 898 0 265 1 191 4 195 3 610 0 254 0 365 7 1 7 2 2 1 9 2 5 2 9 3 5 3 4 2 9 2 0 5 7 2 2 3 6 4 5 6 1 5 7 4 4 1578. 1607. PER Q-3 1 3.8 3 AREA-199 5 353 . 8 32 4 VEL-2 3 1.6 1 2 DEPTH-3 1 1.3 1 1 •SECNO 220.000 220.000 10.35 18.40 15.07 .00 18.54 .13 .03 .00 13.43 14700,0 6770.6 1591.9 6237.5 2103.3 544.5 2303.6 377.9 67.9 13.00 .31 3.21 2.63 2.71 .030 .045 .030 .000 8.05 281.30 .000452 170. 181. 190. 0 14 0 .00 1281.24 1562.54 FLOW DISTRIBUTION FOR SECNO-CWSEL- STA- PER Q-3 2 AREA-247 4 VEL-1 9 DEPTH-2 0 408. 571 38 .6 1604.1 3.5 6 .1 738. 751. 838. 3.5 .8 11.5 6.2 209.1 47.7 644.5 401.1 2.5 2.5 2.5 2.3 3.1 3.7 7.4 2.3 982. 1036 4 .4 230.5 2 . 8 4.3 1080. 1148. 1209. 1247. 1362. 3.4 9.3 9.2 3.8 4.5 183.9 396.6 381.4 182.7 312.0 2.7 3.4 3.5 3.0 2.1 4.1 5.9 6.2 4.8 2.7 STA- 13 52. PER Q- 1.7 AREA- 215.4 VEL- 1.2 DEPTH- 1.1 1553 . •SECNO 230.000 230.000 10.23 18.42 16.34 .00 18.63 .21 .10 .00 13.63 14700.0 7346.1 2469.9 4834.0 1750.1 707.0 1663.7 395.2 72.5 15.75 .32 4.20 3.49 2.94 .030 .045 .030 .000 3.19 297.92 .000822 160. 164. 167. 2 14 0 .00 1153.35 1451.28 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST FLOW DISTRIBUTION FOR SECNO-230.00 18.42 STA- 2 98. PER Q- 3.4 AREA- 204.1 VEL- 2.5 DEPTH- 1.8 S. 443. 541. 511. 3.9 20.5 14.4 3.8 148.4 620.2 437.8 127.6 3.8 4.3 4 . 9 6.3 4.8 6.3 4 .4 5.5 634. 712. 721. 319. 896. 3.1 .9 16.8 3.7 4.4 176.1 35.8 707.0 197.0 188.4 2,6 3.6 3.5 2.7 3.4 2,3 4.0 7.2 2.6 3.8 945. 1026. 1089. 3.5 3.2 197.5 157.8 2.7 2.8 2.5 2.7 1233 . 1308 . PER Q= 3 7 7 3 5 6 1 8 AREA-188 0 307 9 255 5 161 4 VEL-2 9 3 5 3 2 1 5 DEPTH-2 9 3 8 3 4 1 1 •SECNO 240.000 240.000 9.72 18.54 17.16 .00 18.84 .30 .21 .00 14.00 14700.0 3803.4 4525.1 6371.6 935.5 891.4 1594.3 411.4 77.5 14.60 .33 4.06 5.08 4.00 .030 .045 .030 .000 8.82 310.06 .001585 178. 186. 196. 0 14 0 .00 1142.77 1452.83 FLOW DISTRIBUTION FOR SECNO-CWSEL- STA- 310. PER Q= 5.6 AREA- 230.5 VEL- DEPTH- 3.6 2 .1 422. 519 9.1 310.4 4.3 3.2 620. 659. 670. 784. 832. 945. 1 4.2 5.2 1.9 30.8 6.3 13.7 5.6 189.3 153.9 52.5 891.4 189.6 424.1 190.0 3.2 5.0 5.3 5.1 4.9 4.3 4.3 1.9 4.0 4.4 7.8 3.9 3.8 3.3 1. 1069. 1264. 1347. 3.8 3.7 7.2 156.9 220.9 253.3 3.6 2.4 4.2 2.4 1.1 3.1 STA-1347. PER Q= 3 0 . 0 AREA-157 9 1.6 VEL-2 8 . 6 DEPTH-1 7 .2 •SECNO 250.000 3255 DIVIDED FLOW 24JUL02 14:43:56 PAGE 42 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 33 02 WARNING : CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE KRATIO -. 66 250.000 9.67 18.49 17 .81 . 00 19. 11 . 62 .26 .00 12 . 75 14700.0 4541.3 4599.7 5459.0 793 . 9 634 . 0 960.6 419.2 30 .1 14 . 94 . 34 5.72 7.41 5.68 .030 . 045 .030 . 000 3.82 276.87 .003585 119. 112 . 117. 2 10 0 .00 840.53 1303.98 FLOW DISTRIBUTION FOR SECNO-250.00 CWSEL-li i.49 STA- 2 77 394 504 603 . 626 . 653 . 667 . 669. 754. 772 802 . PER Q= 5.3 8 . 0 3 . 1 3 . 9 6 0 3 9 .7 32.0 3 . 3 5.2 3 AREA-179.3 237 .1 101.5 f 2 . 1 114 4 58 3 11.2 634 . 0 67.4 109.7 36. VEL-4 . 3 4 . 9 4.5 7. 0 7 7 8 5 9.3 7.4 7.2 7.0 6. DEPTH-1.5 2.2 1. 0 3 . 6 4 2 4 3 5.6 7.5 3 . 7 3.6 2 STA- 869 398 947 999. 1065 . 1301. 1309. PER Q-3 2 3 9 5 9 5 9 3 1 1 AREA-79 5 111 2 145 9 161 0 107 8 4 2 VEL-5 9 5 1 5 9 5 4 4 2 1 9 DEPTH-2 8 2 3 2 8 2 4 5 5 •SECNO 260.000 3265 DIVIDED FLOW 3301 HV CHANGED MORE THAN HVINS 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 260.000 9.56 19.10 19.10 .00 20.35 1.25 .44 .00 13.23 14700.0 4032.6 5748.3 4919.0 554.5 541.4 505.0 423.7 81.7 13.98 .34 7.14 10.62 8.13 .030 .045 .030 .000 9.54 379.08 .006229 93. 95. 98. 0 6 0 .00 615.87 1141.84 832. 869. 3 .1 87.2 5.2 2.3 FLOW DISTRIBUTION FOR SECNO-260,00 CWSEL-19. 10 24JUL02 43 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST STA- 3 79 515 606 639 659. 671 . 734 . 766. 803. 834 1070. 1096 1129 PER Q-5.0 6.3 5 2 5 7 5 2 39 1 9 8 10.1 3.7 3.3 3 2 3 2 AREA-159.8 161.3 95 0 83 7 64 3 541 4 138 0 149.9 75 . 0 98.5 65 2 70 6 VEL-4.6 5.7 8 0 10 1 11 9 10 6 10 5 9.9 7.2 5.0 7 2 6 7 DEPTH-1.2 1.8 2 9 4 1 5 3 3 5 4 4 4.0 2.5 .4 2 5 2 1 STA- 1129. 1 PER Q- .2 AREA- 7 . 7 VEL- 3 . 1 DEPTH- . 6 1490 NH CARD USED •SECNO 270.000 3470 ENCROACHMENT STATIONS-1. 0 1138.8 TYPE 1 TARGET-1137 800 270.000 10.66 19.95 19.50 . 00 20.81 .86 .46 00 18.28 14700.0 1496.0 7315.7 5888.3 317.3 839. 0 947.9 427.2 82 .9 15 . 85 .34 4.71 8.72 6.21 . 030 . 045 .035 . 000 9. 29 406.65 . 005241 75. 31. 84 . 3 9 0 . 00 692 . 55 1099.20 FLOW DISTRIBUTION FOR SECNO-270 . 00 CWSEL-19. 95 STA- 4 07 520. 626 745. 760 . 775 . 335 . 873 . 943 . 979 999 1018 1040 PER Q-5.1 5.0 49 . 8 3 .3 3.0 4.4 3 . 7 4.6 4. 9 3.6 3 9 3 5 AREA-159.0 158.3 839.0 56 .3 53 . 9 129.3 104.2 151.7 119. 7 77.7 69 1 63 7 VEL-4.7 4.7 8.7 8 .7 8.3 5 . 0 5.2 4.5 6 . 0 6.7 3 3 7 6 DEPTH-1.4 1.5 7.0 3 .8 3.5 2.2 2.7 2 .2 3. 4 4.0 3 5 3 1 PER Q-4 2 7 AREA-91 1 25 6 VEL-6 8 4 2 DEPTH-2 6 1 1 14 90 NH CARD USED •SECNO 280.000 3280 CROSS SECTION 2 80.00 EXTENDED 14:43:56 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 3301 HV CHANGED MORE THAN HVINS 3302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO 3470 ENCROACHMENT STATIONS- 1.0 280.000 11.30 20.60 17.55 14700.0 2040.5 4207.4 8452.1 .35 3.31 4.46 4.76 .001110 51. 51. 51. 1108.4 TYPE- 1 TARGET- .00 20.92 .31 615.5 942.9 1777.4 .030 .045 .033 2 13 0 1107.400 .11 .00 430.4 33.8 .000 9.30 .00 705.91 15.73 15.79 402.49 1108.40 FLOW DISTRIBUTION FOR SECNO-230.00 CWSEL- STA- 402. PER Q= 7.1 AREA- 340.5 VEL- 3 .1 DEPTH- 2.4 7. 632. 746. 779. 343. 872. 903. 945. 975. 6.8 23.6 4.0 3.3 5.2 7.2 8.3 5.1 4.5 275.9 942.9 137.7 177.0 183.1 224.0 279.3 203.9 135.8 3.5 4.5 4.3 2.8 4.2 4.7 4.4 4.4 4.9 3.2 8.3 4.1 2.8 6.2 7.4 6.6 6.7 7.9 992. 1001. 1025. 3.4 3.1 74.9 104.3 6.7 4.3 8.1 4.4 STA- 1025. 1068. 1080. 1087. 1 PER Q= 3.1 5.0 3.9 .4 AREA- 114.9 59.3 50.5 21.8 VEL- 3.9 10.5 11.4 2.5 DEPTH- 2.6 6.0 6.7 • 1.0 1490 NH CARD USED •SECNO 290.000 3470 ENCROACHMENT STATIONS-1.0 853 3 TYPE 1 TARGET-852.300 290.000 11.39 20.99 13.62 . 00 21.24 ,26 .33 . 00 17 70 14700.0 4331.9 2994.9 7373. 1 10 34.3 747.3 1792.2 456.7 89.6 14 54 .37 3 . 99 4 . 01 4 . 11 030 . 045 . 028 . 000 9.60 11 97 .000904 335 . 330. 325 . 2 14 0 . 00 i 336.61 848 58 FLOW DISTRIBUTION FOR SECNO-290.00 CWSEL-20, 99 14:43:55 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST STA-12 . 82 110 150 175 . 204 . 230 . 254 . 277 . 368 389. 419. PER Q-4 1 3.6 5 6 4 1 4 5 3 5 3 2 1. 0 20 4 4.5 5 7 7 0 AREA-138 4 123 .4 192 8 132 9 148 9 121 0 128 6 43 . 2 747 3 131.0 173 2 225 2 VEL-3 2 4 . 1 4 3 4 5 4 4 4 2 3 6 3 . 3 4 0 5.1 4 8 4 6 DEPTH-2 7 4.6 4 8 5 2 5 1 4 8 3 8 3. 2 8 2 6.3 5 8 5 4 STA-460. 517 549 572 509. 656. 727. 827 . 843 . 349 PER Q= 7 4 4 .1 3 0 4 0 3 1 3 4 3 3 3 . 7 9 AREA-252 7 145.2 107 9 154 2 144 5 179 2 180 0 68 . 1 19 8 VEL-4 1 4 . 1 4 1 3 8 3 2 2 8 2 7 8 . 0 6 4 DEPTH-4 5 4.6 4 6 4 1 3 1 2 5 1 8 4 . 5 3 3 •SECNO 300.000 3265 DIVIDED FLOW 3302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO - 300.000 14700.0 .39 .003212 10.74 1952.2 5.26 383 . 21.19 4967.5 7 . 05 387. 20. 14 7780.3 6.40 391. .00 371.1 .030 2 21.34 704.6 .045 9 . 65 1215.4 . 030 0 .60 483.0 . 000 .00 . 00 96.4 10.45 687.98 19.20 15.80 21.22 741.45 FLOW DISTRIBUTION FOR SECNO-CWSEL- STA- 21. PER Q- 3.7 AREA- 109.0 VEL- S . 0 DEPTH- 2 . 2 94. 129. 182. 276. 305. 325. 366. 3.8 3.7 2.0 33.8 7.3 4.8 8.5 4.6 85.1 97.4 79.5 704.6 140.6 91.1 172.2 101.4 6.6 S.S 3.8 7.1 8.2 7.7 7.3 6.7 3.6 2.8 1.5 7.4 5.0 4.6 4.1 3.6 394. 420. 454. 4.0 5.5 4.6 90.1 150.9 110.7 6 . S 6.4 6.2 3.5 3.4 3.3 533 . PER Q-4 9 3 3 3 0 8 AREA-116 3 88 2 106 1 47 7 VEL-6 3 5 6 4 2 2 4 DEPTH-3 3 2 8 1 8 4 •SECNO 310.000 24JUL02 14:43:56 PAGE 46 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 3265 DIVIDED FLOW 3302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO 1.87 310.000 14700.0 .41 .000922 10.60 3400.1 3.52 354. 22 . 13 2118.4 4 . 50 353 . 19.71 9181.5 4 .44 364 . . 00 964.7 . 030 2 22 .41 470.4 . 045 16 .28 2070.2 .030 0 .56 507 . 0 . 000 . 00 .00 102 . 6 11.53 803.85 15.12 14.94 32 .48 844.05 FLOW DISTRIBUTION FOR SECNO-CWSEL-22.13 STA- 32. 121. 163 PER Q- 3.6 3.2 AREA- 187.0 138.1 VEL- 2.8 3.4 DEPTH- 2.1 3.3 239. 291. 316 3.4 4.2 3.2 183.4 175.5 114.9 2.7 3.5 4.1 2.4 3.4 4.5 344. 392. 407. 422. 447. 463. 494. 5.6 14.4 3.7 3.6 5.6 3.1 6.0 155.6 470.4 100.9 99.9 159.3 91.8 181.4 5.0 4.5 5.4 5.2 5.2 5.0 4.9 5.0 9.7 6.9 6.5 6.3 6.0 5.8 STA- 494. 516. 548. 585. 620. 654. 679. 708. 747. 815. 844. PER Q- 4.1 5.9 6.4 5.3 5.3 3.4 3.1 3.2 3.3 .4 AREA- 126.7 181.9 202.1 176.0 173.6 118.3 118.5 137.8 171.7 30.4 VEL- 4.8 4.8 4.6 4.5 4.5 4.2 3.9 3.5 2.3 1.7 DEPTH- 5.7 5.7 5.4 5.1 5.1 4.7 4.1 3.5 2.5 1.0 •SECNO 320.000 3265 DIVIDED FLOW 33 01 HV CHANGED MORE THAN HVINS 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 320.000 9.42 21.95 21.95 .00 23.24 1.29 .71 .00 20.53 14700.0 166.7 7441.6 7091.7 63.3 754.9 847.8 527.3 108.3 19.66 .42 2.64 9.86 8.36 .030 .045 .030 .000 12.53 37.74 .008414 342. 339. 342. 0 10 0 .00 656.74 838.19 24JUL02 PAGE SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST FLOW DISTRIBUTION FOR SECNO-320.00 CWSEL-21. 95 STA- 38. 344. 472. PER Q- 1.1 50.6 3.6 AREA- 53.3 754.9 78.2 VEL- 2.5 9.9 5.8 DEPTH- .2 5.9 1.8 515. 544. 592. 609. 633. 3.4 10.2 4.2 5.5 65.0 151.9 59.3 30.1 7.8 9.9 10.4 10.1 2.2 3.2 3.5 3.3 766. 806. 838. 4 7 4 1 7 5 3 8 1 2 75 7 73 3 153 1 77 4 33 8 9 2 3 2 7 2 7 1 5 1 2 9 2 4 2 0 2 0 1 0 •SECNO 330.000 3301 HV CHANGED MORE THAN HVINS 33 02 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO 330.000 14700.0 .43 .001699 10.57 5526.8 5 . 01 268 . 23 . 69 3270.0 5 . 50 267 . 21.96 5903.2 5.13 268 . . 00 1103.0 . 030 2 24 . 10 594.5 . 045 10 .42 1149.9 . 030 0 . 37 541. 1 . 000 . 00 .00 112 .4 13 .12 669.51 20.16 18.27 9.29 678.80 FLOW DISTRIBUTION FOR SECNO-330.00 CWSEL- STA-9. 52 89 111. 136 . 168 . 198 . 234 . 266. 294 305. 376 PER Q-3 . 3 3 . 7 3 2 3 7 4 3 4 0 5 . 0 5 .2 4 .1 1.2 22 2 3 5 AREA-127 .2 105 .7 90 6 103 8 123 3 117 7 141. 3 141 .3 114.0 38.1 594 6 37 1 VEL-3 . 8 5 .2 5 2 5 2 5 1 5 0 5 . 2 5 . 5 5.2 4.6 5 5 5 9 DEPTH-2 . 4 4 . 0 4 1 4 0 3 9 3 8 4 . 0 4 . 4 4.1 3.4 8 4 4 9 STA-394 . 417 435 484 . 541 . 555 . 620. 647 . 679 . PER Q= 4 . 3 3 .2 7 5 7 2 3 5 5 6 3 . 1 2 .3 AREA-109 .4 83 .4 207 0 214 0 80 3 195 5 94 . 7 78 .5 VEL-5 . 8 5 . 6 5 3 4 9 6 5 4 2 4 . 7 4 . 3 DEPTH-4 . 8 4 . 5 4 2 3 8 5 7 3 0 3 . 5 2 . 5 •SECNO 340.000 340.000 10.70 24 . 10 22 .43 . 00 24 . 65 .54 54 .00 19.38 14700 .0 5256.6 3280.0 6163.4 935 .2 528.0 1028.2 559 .0 116.5 17.34 45 5.62 6 .21 5.99 . 030 .045 . 030 . 000 13 .40 35.75 .002062 296. 292 . 287 . 3 9 0 00 556.95 592.70 394. 24JUL02 14:43:56 PAGE 48 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST FLOW DISTRIBUTION FOR SECNO-340.00 CWSEL- STA- 36. 73 108 . 147 . 175 . 196 . 233 . 267 278. 339 356 373. PER Q- 4 3 5 .2 6 1 4 1 3 3 5 8 5 .3 1. 7 22.3 5.4 4 5 5 1 AREA- 125 3 129 .2 153 0 107 0 85 3 149 1 137 .4 43 . 9 523 . 0 105.2 92 8 117 0 VEL- 5 0 5 .9 5 7 5 5 5 7 5 7 5 . 7 5.7 6.2 7.5 7 1 6 4 DEPTH- 3 0 4 .3 4 0 3 9 4 0 4 1 4 .0 4 . 0 8.6 6.1 5 6 4 8 STA- 398. 419 452 . 472 . 496 . 529. 576. 593 PER Q- 4 1 6 .5 3 9 4 0 4 0 3 9 . 5 AREA- 97 4 152 .3 92 5 99 8 115 3 130 2 25 . 9 VEL- 6 2 6 .2 6 2 6 0 5 2 4 5 3 .3 DEPTH- 4 5 4 .6 4 5 4 3 3 5 2 8 1 .5 •SECNO 350.000 350.000 9.91 24.47 23.54 . 00 25.30 . 83 . 65 . 00 19.82 14700.0 3758.0 5381.a 5560.3 607 . 0 709.3 720. 5 571.3 119.4 19.39 .46 6.19 7.59 7 . 72 . 030 . 045 . 030 . 000 14.56 81.98 .003791 223 . 235 . 252 . 2 10 0 . 00 510.60 592.58 398. FLOW DISTRIBUTION FOR SECNO- STA- PER Q- AREA- VEL- DEPTH- 82. 130. 158. 190. 236. 284 5.2 3.9 3.8 3.2 4.1 125.5 87.4 91.4 93.7 108.2 6.1 6.5 6.2 5.0 5.6 2.6 3.1 2.9 2.0 2.2 309. 406. 5.4 36.6 5.2 100.9 709.3 104.2 7.8 7.5 8.7 4.1 7.3 4.8 428 . 485 . 545. 3 5 10 0 7 5 4 5 53 1 183 4 144 6 89 3 8 5 8 0 7 7 7 4 4 6 4 3 4 0 3 8 STA- 545. 573. PER Q- 4.6 1.4 AREA- 96.3 3 9.1 VEL- 6.9 5.4 DEPTH- 3.4 2.0 593 . •SECNO 360.000 3265 DIVIDED FLOW I 24JUL02 14:43:56 PAGE 49 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 33 01 HV CHANGED MORE THAN HVINS 7135 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 360.000 10.79 25.69 25.69 .00 14700.0 1028.4 8716.2 4955.4 117.1 .47 8.78 11.51 7.56 .030 .007391 298. 305. 322. 0 27.30 757 .4 . 045 1.60 655.6 . 030 0 1. 60 584 . 0 . 000 . 00 .00 122 . 8 14 . 90 457.67 21. 09 20.15 281.11 747.21 FLOW DISTRIBUTION FOR SECNO-360.00 CWSEL-25.69 STA- 281. PER Q- 4.1 AREA- 75.0 VEL- 3.0 DEPTH- 2.1 317. 328. 419. 440 2.9 59.3 7.0 42.1 757.4 89.5 10.1 11.5 11.5 3.7 8.3 4,4 515, 5.1 5.0 109.6 110.5 5.8 5.6 1.4 1.8 508. 635. 680. 723. 4.0 3.3 4.4 4.1 .8 74.9 64.3 93.0 87,7 26.1 7,3 7.6 7.0 6.9 4.4 2,5 2.4 2.1 2.0 1.1 1490 NH CARD USED •SECNO 370.000 3265 DIVIDED FLOW 33 01 HV CHANGED MORE THAN HVINS 3302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO - 1.89 370.000 14700.0 .49 .002059 12 . 10 741.5 5.15 435 . 28.30 4196.0 6.72 470 . 26 .48 9762.4 6.15 457 . . 00 120.6 . 030 2 28 . 92 624 .6 . 045 10 . 62 1588.4 . 030 0 1.63 604 .4 . 000 . 00 . 00 128 . 1 16.20 537.90 22 . 00 21.26 34.57 625.04 FLOW DISTRIBUTION FOR SECNO-CWSEL- 24JUL02 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST STA- 35 58 65 128 141. 190. 229. 269. 303. 320 335. PER Q-3 0 2 . 0 28 5 4 9 12 7 8 3 9 7 8 . 1 4.2 3.3 3 AREA-80 3 40.3 624 6 89 0 267 4 188 5 211 2 175.7 91.5 72.3 77 VEL-5 5 7.4 6 7 8 0 7 0 6 4 6 8 5 . 8 6.8 5.7 6 DEPTH-3 5 6.0 9 8 6 7 5 5 4 9 5 2 5.2 5.3 5.1 5 STA- 3 74 415 452 625 PER Q= 3 6 3.0 1 6 AREA-113 3 99.7 107 2 VEL-4 5 4.4 2 2 DEPTH-2 8 2 . 7 6 350. 374. 3.4 88 . 9 5.6 3.8 1490 NH CARD USED •SECNO 380.000 3265 DIVIDED FLOW 380.000 10.35 28 . 74 27 . 82 . 00 29.58 . 83 .65 . 00 23 86 14700.0 1937.4 3391.0 3371.6 275.4 491.5 1249.1 617 .1 131.2 22 56 .50 7 . 04 7 . 92 7.10 .030 . 045 .030 . 000 18 .39 39 47 .003287 266 . 262 . 249. 3 14 0 . 00 545.40 527 24 FLOW DISTRIBUTION FOR SECNO-380.00 CWSEL- STA- PER Q- AREA- VEL- DEPTH- 3.7 90 . 1 6.0 2.9 70. 102, 6 . 8 134 .4 7.4 4.2 113 . 169. 299. 322 . 2 . 7 50.9 7 .7 4.5 26.5 491 .5 7 . 9 4 0 5 4 3 8 3 7 3 5 6 2 7 2 5 1 61 2 88 1 64 6 64 1 146 2 110 9 134 1 99 7 9 5 8 9 3 6 8 5 a 6 8 2 7 9 7 5 5 1 5 6 5 3 5 2 5 2 4 9 4 6 4 3 382 . 504 . 562 . 627. PER Q= 4 4 4 8 3. a 3 3 3 AREA-90 7 114 9 146 . 8 109 3 18 0 VEL-7 2 6 1 3 . 8 4 4 2 2 DEPTH-4 0 3 1 1.2 1 9 3 •SECNO 390.000 32 55 DIVIDED FLOW 24JUL02 PAGE 51 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 390.000 9.48 29.64 28.74 . 00 30.58 . 94 1 . 00 .00 24 . 90 14700.0 4380.8 3553.6 6755.5 593 .2 442 .4 851.5 629.5 134.5 25 . 67 .51 7.32 a . 03 7.95 . 030 .045 . 030 . 000 20 . 15 92 . 60 .004021 283 . 285 . 268 . 2 12 0 . 00 510.42 651.12 FLOW DISTRIBUTION FOR SECNO-CWSEL-29.64 STA- 93. 229. 258 PER Q- 3.3 3.9 AREA- 112.9 87.2 VEL- 4.3 6.6 DEPTH- .8 3.0 276. 294. 334. 350. 407. 423. 3.9 4.2 10.3 4.2 24.2 3.8 71.9 76.2 179.0 71.0 442.4 67.7 7.9 8.2 8.4 8.7 8.0 8.1 4.0 4,2 4.4 4.6 7.7 4.2 458 . 5 5 3 9 10 a a 0 92 5 66 9 187 3 137 9 8 7 8 6 8 5 a 5 4 6 4 6 4 4 4 5 STA-531. 548 . PER Q-4 5 4 0 3 0 2 6 AREA-77 0 70 4 62 3 89 5 VEL-8 5 a 3 7 2 4 2 DEPTH-4 5 4 3 3 5 1 3 •SECNO 400.000 33 01 HV CHANGED MORE THAN HVINS 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 400.000 10.99 33.09 33.09 .00 14700.0 612.3 14087.7 .0 83.8 .51 7.30 14.19 .00 .030 .011078 320. 303. 287. 0 36. 12 993 . 0 . 045 3.03 . 0 . 000 0 1. 89 639.8 . 000 . 00 . 00 137 . 0 22 .10 184.40 30.46 35.68 57.70 242.10 FLOW DISTRIBUTION FOR SECNO-400.00 33 . 09 STA- PER Q= AREA- VEL- DEPTH- 58 . 67 . 88 . 89. 90 . . 0 2 . 7 2 . 3 . 3 . 1 5.2 3 . 1 .5 . 1 5 .1 4.0 .7 . 0 1.2 4 . 8 . 9 . 0 1.2 5.2 1. 0 . 1 1.4 5 . 9 1.2 . 1 3 . 0 6.1 1.3 . 1 1.4 6.3 1.4 93. 106. 1.0 20.8 7.2 1.6 5 2 1 95 8 3 5 33 2 993 0 8 0 9 1 14 2 1 9 2 3 8 5 24JUL02 14:43:56 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 1490 NH CARD USED •SECNO -180.000 START TRIB COMP -180.000 130.000 13.233 3265 DIVIDED FLOW 3301 HV CHANGED MORE THAN HVINS -130.000 12.14 18.23 .00 .00 18.29 .06 .08 14700.0 1815.4 12131.1 753.5 1409.5 5839.6 589.9 654.4 .53 1.29 2.06 1.28 .040 .031 .030 .000 .000176 145. 145. 100. 0 0 0 .00 1.31 12.81 139.8 12.70 6.09 145.46 1571.35 1744.71 FLOW DISTRIBUTION FOR SECNO- -180.00 CWSEL-13 .23 TA- 145. 295. 378. 485. 529. 1516. 1732. PER Q- 3.2 4.1 3.7 1.4 82.5 5.0 .1 AREA- 327.5 349.7 515.5 216.9 5889.6 575.5 14.3 VEL- 1.4 1.7 1.1 1.0 2.1 1.3 .8 DEPTH- 2.2 4.2 4.8 4.9 6.0 2.7 1.1 1745. •SECNO 410.000 3265 DIVIDED FLOW 3230 CROSS SECTION 410.00 EXTENDED 3.91 FEET 3302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO - 410.000 1900 . 0 .61 .000026 8 . 92 1329.5 . 63 205. 18 .31 90 . 9 . 97 207. 13.68 479.6 .75 210. .00 1951.5 . 030 2 18 .32 94 . 1 . 030 17 . 01 641 . 7 . 030 0 . 03 679.5 . 000 . 00 . 00 145 .1 9.39 669.21 11.10 11.39 . 00 712.86 FLOW DISTRIBUTION FOR SECNO-CWSEL-18 .31 24JUL02 14:43:55 53 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST STA-0. 26 54 80 134 . 177 . 219. 272 . 313 . 339 364 . 391. PER Q= 3 1 3.4 3 2 6 3 4 7 4 3 5 3 4 . 1 3 8 4.7 5 a 5 0 AREA-102 8 105.3 98 0 199 9 153 4 142 6 178 2 137. 0 109 9 122.8 141 9 118 4 VEL-6 . 6 6 6 6 6 6 6 7 .7 8 8 DEPTH-3 9 3.9 3 8 3 7 3 5 3 4 3 4 3 . 4 4 2 4.9 5 4 5 7 STA-412 . 435 450 461 466 . 477. 501 . 515 . 529. 547 572 . 713 . PER Q-6 5 4.6 3 4 1 a 4 3 7 6 4 5 4 . 1 4 1 3.0 1 9 AREA-143 9 99.4 71 7 36 2 94 1 160 9 94 4 38 . 9 100 9 93.2 103 4 VEL-9 . 9 9 9 1 0 9 9 9 8 .6 4 DEPTH-6 2 6.5 5 3 7 1 3 3 6 3 5 7 6. 5 5 4 3.3 7 •SECNO 420.000 3302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO - .60 420.000 1900.0 .66 .000073 8 . 05 1023.9 .89 178 . 18.31 99.3 1.43 177 . 15 .26 776.3 1 . 07 175. . 00 1149.4 .030 1 13.33 69.9 . 030 11 . 02 727.7 . 030 0 . 01 689.0 . 000 . 00 . 00 147.3 10.26 657.41 12.42 12.44 65.80 723.20 FLOW DISTRIBUTION FOR SECNO-420.00 18.31 STA- 56. 135. 166. PER Q- 4.7 5.1 5.2 AREA- 123.4 103.0 102.5 VEL- .7 .9 1.0 DEPTH- 1.8 3.3 3.4 STA- 524. 540. 551. PER Q- 5.7 3.7 5.1 AREA- 83.7 55.5 91.8 VEL- 1.3 1.3 1.3 DEPTH- 5.4 5.1 5.1 196. 226. 253. 314. 5.7 4.3 4.0 5.7 109.3 87.3 115.0 138.1 1.0 .9 .7 .6 3.6 3.2 1.9 1.5 569. 580. 608. 626. 3.2 6.5 4.0 3.6 52.5 113.9 71.9 67.5 1.2 1.1 1.1 1.0 4.6 4.1 4.0 3.6 489. 524 . 1 5 2 3 5 5 3 5 3 3 85 1 54 1 76 7 69 9 9 1 2 1 2 1 3 1 4 2 4 6 4 9 5 5 7 0 665 696 723 2 3 5 1 3 3 81 7 41 9 9 8 6 2 2 5 1 6 •SECNO 430.000 )2 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO -.35 430.000 3.37 18.27 16 . 88 .00 18.35 .08 . 02 . 00 15 81 1900.0 1452.7 101.2 346.1 636.9 39.5 198.5 693 . 1 149.3 16 05 .63 2.28 2.56 1.74 .030 . 030 .030 . 000 14 . 90 149 90 .000608 127 . 128 . 129. 2 14 0 .00 399.62 549 51 14:43:56 PAGE 54 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST FLOW DISTRIBUTION FOR SECNO-CWSEL-18.27 STA-150. PER Q-3 5 AREA-40 7 VEL-1 6 DEPTH-1 3 182. 195. 208 3.5 4.6 30.9 36.5 2.2 2.4 2.4 2.7 225. 264. 275. 6.3 10.7 3.2 5.8 48.3 93.1 27.1 51.6 2.5 2.2 2.3 2.5 2.9 2.4 2.6 3.0 292. 318. 9.4 72.2 2 . 5 2 . 9 4.5 40.6 2 .1 2.3 335. 355. 9.5 78.8 2.3 2.6 7.8 61.3 2.4 2.8 388. 400. 4 . 0 32 .3 2.3 2.6 STA- 400. 410. 422. 443. 459. 483. 506. PER Q- 2.7 5.3 4.2 3.2 4.3 3.4 3.0 AREA- 22.9 39.5 40.7 31.6 45.1 38.1 40.8 VEL- 2.2 2.6 2.0 1.9 1.8 1.7 1.4 DEPTH- 2.4 3.1 2.0 2.0 1.8 1.7 1.2 541. 550. .1 2 .1 .5 .3 •SECNO 440.000 440.000 3.11 18.38 16.58 .00 18.44 .06 .09 .00 15.31 1900.0 27.4 1793.2 79.4 18.6 914.2 54.6 697.1 151.0 15.27 .71 1.43 1.96 1.45 .030 .030 .030 .000 15.27 77.04 .000396 190. 189. 164. 2 18 0 .00 372.57 449.52 FLOW DISTRIBUTION FOR SECNO-440.00 STA- 77. 82. 89. PER Q= .1 1.3 94.4 AREA- 3.3 15.2 914.2 VEL- .7 1.6 2.0 DEPTH- .7 2.2 2.8 415. 415. .1 .3 .8 1.5 2.8 8.5 1.7 1.8 1.7 2.9 2.6 2.3 420. 435. 2.3 28.3 1. 5 1. 9 438. 441. .3 .3 .1 4.2 4.6 4.2 1.3 1.1 .6 1.5 1.2 .5 •SECNO 450.000 3265 DIVIDED FLOW 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 450.000 3.62 18.95 13.95 .00 19.45 .50 .29 .00 17.83 1900.0 474.3 673.6 752.1 137.2 88.1 160.5 701.4 153.3 17.77 .72 3.45 7.54 4.59 .030 .030 .030 .000 15.33 69.33 .007643 250. 277. 259. 0 11 0 .00 403.52 590.62 14:43:56 PAGE SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST FLOW DISTRIBUTION FOR SECNO-450.00 STA- 69. 137. 164. 185. 209. 236. 258. 402. 439. 457. 471. 492. 501. PER Q- 4.1 3.0 3.3 4.5 4.9 3.3 1.7 35.5 4.9 3.7 6.1 3.3 AREA- 28.9 17.7 16.8 21.5 23.8 19.2 9.4 88.1 19.9 15.5 24.5 11.9 VEL- 2.7 3.3 3.7 4.0 3.9 3.3 3.5 7.6 4.7 4.5 4.8 5.2 DEPTH- ,4 .7 .8 .9 .9 .5 .1 2.4 1.1 1.1 1.2 1.3 STA- PER Q- AREA- VEL- DEPTH- 501. 512. 5 . 3 17 .1 5 . 8 1.6 525. 5.3 4.8 13.4 23.9 5.5 1.4 3 . 9 554. 574. 5.1 21.5 4.4 1.0 1.1 7.7 2.6 .5 •SECNO 460.000 3265 DIVIDED FLOW 7135 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 460.000 5.63 21.24 21.24 .00 21.72 .47 1.27 .00 18.21 1900.0 518.5 570.5 711.0 171.2 83.1 195.3 703.8 155.6 18.73 .73 3.03 8.07 3.63 .030 .030 .030 .000 15.61 43.56 .003712 242. 247. 252. 0 15 0 .00 416.39 562.44 FLOW DISTRIBUTION FOR SECNO-460.00 STA- PER Q- AREA- VEL- DEPTH- 44. 105. 3.4 30.8 2 . 1 .5 149. 234 5.4 4.4 37.5 38.8 2.7 2.1 .9 .5 253. 273. 277. 294. 5.9 4.5 3.7 35.3 7.3 33.6 18 .3 12.2 83.1 26.2 3.3 4.6 5.8 3.1 5.3 1.1 1.9 2.7 5.0 2.3 305 . 316. 483 . 4 3 3 0 4 0 3 4 18 9 23 7 23 8 19 0 4 3 2 4 3 2 3 4 1 7 2 1 1 1 2 STA- 483. 509. 534. 546. 562. PER Q= 6.3 5.4 3.0 .6 AREA- 33.5 29.3 15.8 5.6 VEL- 3.5 3.5 3.6 2.0 DEPTH- 1.3 1.2 1.3 .3 14:43:56 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST •SECNO 470.000 3265 DIVIDED FLOW 7185 MINIMUM SPECIFIC ENERGY 372 0 CRITICAL DEPTH ASSUMED 470.000 7.51 23.86 23.86 .00 24.36 .50 1900.0 200.5 833.7 865.3 51.1 108.4 276.2 .75 3.93 7.69 3.13 .030 .030 .030 .004431 261. 261. 262. 0 17 0 1.06 . 00 21 85 706.4 158.1 22 30 . 000 16 . 35 144 97 . 00 408.61 611 99 FLOW DISTRIBUTION FOR SECNO-470.00 23 . 86 STA- 145. 185. PER Q= 6.2 3.1 AREA- 34.0 12.3 VEL- 3.4 4.8 DEPTH- .9 1.8 194 . 307 . 422 . 448 . 1 3 43 9 4 1 3 5 4 6 3 2 3 9 3 7 4 9 6 5 4 8 108 4 22 0 31 3 33 2 19 3 22 5 21 3 27 4 32 5 5 1 7 7 3 5 2 1 2 6 3 2 3 3 3 3 3 4 3 a 1 9 4 3 1 1 5 7 9 1 0 1 0 1 1 1 2 STA- 474. 495. PER Q- 4.9 3.1 AREA- 25.1 17.7 VEL- 3.7 3.4 DEPTH- 1.2 1.0 512. 548. 612. 3.1 .1 22.7 1.2 2.6 1.2 .6 .0 •SECNO 480.000 3301 HV CHANGED MORE THAN HVINS 7185 MINIMUM SPECIFIC ENERGY 3 72 0 CRITICAL DEPTH ASSUMED 480.000 7.82 26.66 25.66 .00 1900.0 248.6 1369.9 231.5 55.8 .76 3.72 9.21 3.30 .030 .003701 235. 235. 237. 0 27 . 66 148.7 .030 1.00 85 . 3 . 030 0 . 95 703 .4 . 000 . 00 . 00 159.7 18,84 160.83 23.70 24 . 90 138.37 299.20 FLOW DISTRIBUTION FOR SECNO-CWSEL- STA- 138. PER Q= 3.8 AREA- 27.4 VEL- 2. 7 DEPTH- .7 139. 198. 221. 3.9 5.4 72.1 3.1 13.9 20.4 148.7 15.9 3.9 5.0 9.2 1.5 2.1 6.4 233. 264. 280. 299. 5.9 4.1 1.7 34.8 21.3 13.3 3.8 3.2 3.5 2.4 1.4 1.1 1.3 .7 24JUL02 14:43:56 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST •SECNO 490.000 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 490.000 6.52 30.42 30.42 .00 31.57 1.15 1.26 .00 26.56 1900.0 687.8 584.9 627.3 91.9 52.7 91.1 709.9 160.5 27.47 .76 7.49 11.09 6.89 .030 .030 .030 .000 23.90 224.66 .007327 249. 248. 248. 0 9 0 .00 112.63 337.29 FLOW DISTRIBUTION FOR SECNO-490.00 30.42 STA-225 . 262 . 275. 307 . 319 . PER Q-11 9 4 8 19 5 30 3 22 5 7 2 3 1 2 AREA-40 6 11 5 39 8 52 7 54 1 21 9 13 0 2 0 VEL-5 5 7 9 9 3 11 1 7 9 6 3 4 5 2 0 DEPTH-1 2 2 6 3 3 4 9 2 5 1 8 1 1 3 •SECNO 500.000 3 301 HV CHANGED MORE THAN HVINS 3302 WARNING: CONVEYANCE CHANGE OUTSIDE OF ACCEPTABLE RANGE, KRATIO - 1.52 500.000 1900.0 .77 .003164 6.50 276.1 3.38 160 . 31.39 813 .2 6.44 158 . 31.51 810.7 4.01 158 . .00 81. 7 . 030 3 32 .29 126.4 . 030 10 .41 202 . 1 . 030 0 .73 711.1 . 000 . 00 . 00 161.1 25.39 241.58 29.75 29.60 149.54 391.12 FLOW DISTRIBUTION FOR SECNO- 209. 257 . 234 . 312 . 334 . 350 . 378 . PER Q= 5 5 6 3 2 7 42 8 8 5 5 4 5 6 9 1 5 6 7 1 1 2 AREA-33 9 30 7 12 0 126 4 35 3 24 9 25 7 41 1 26 9 39 1 9 2 VEL-2 7 3 9 4 3 6 4 4 6 4 2 4 2 4 2 4 0 3 5 2 5 DEPTH-7 1 7 1 9 3 a 2 1 1 8 1 8 1 9 1 7 1 4 7 1490 NH CARD USED •SECNO 510.000 7185 MINIMUM SPECIFIC ENERGY 24JUL02 14:43 56 PAGE SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 3720 CRITICAL DEPTH ASSUMED 510.000 6.40 33.57 33 . 67 .00 34 .24 .57 . 68 . 00 31. 77 1900.0 210 . 9 991. 6 697 . 5 58 .2 128.9 202 . 3 712 . 8 162 .3 31.27 . 78 3.63 7 . 69 3.45 .030 . 030 . 030 . 000 27.27 183.29 . 004194 134 . 188 . 189. 0 6 0 . 00 298.39 481.63 FLOW DISTRIBUTION FOR SECNO-510.00 CWSEL 33 . 57 STA- 183 . 225 246 279. 293 . 316. 339. 364 . 387. 410 441. 474. 482 PER Q-3.6 7.5 52 .2 7 1 7.9 5.1 3.4 3 .1 3 .1 3.8 3.0 .1 AREA-25.3 32.9 123.9 27 5 35.2 27.3 22.1 20.1 20.1 25.3 22.9 1.9 VEL- DEPTH- 2 . 7 . 5 4 . 3 1. 5 7.7 3 . 9 4 . 9 1.9 4 . 3 1. 5 3.6 1.2 3 . 0 . 9 2.9 . 9 2 . 9 . 9 2.8 2 . 5 . 7 1.2 .2 1490 NH CARD USED •SECNO 520.000 3255 DIVIDED FLOW 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 520.000 5.59 36.25 35.25 .00 35.96 .71 1.19 .00 32.47 1900.0 422.5 518.5 958.9 78.5 52.4 190.8 715.0 153.9 31.80 .79 5.38 9.89 5.03 .030 .030 .030 .000 30.56 146.04 .004928 258. 262. 264. 0 9 0 .00 241.68 440.93 FLOW DISTRIBUTION FOR SECNO-CWSEL-36.25 PER Q-3 6 5 3 7 4 5 9 27 3 18 4 7 9 5 4 7 9 4 4 3 5 3 0 AREA-19 8 20 9 23 5 14 3 52 4 44 1 25 3 19 6 33 0 22 8 20 2 24 8 VEL-3 5 4 9 6 0 7 8 9 9 7 9 5 7 5 2 4 5 3 7 3 3 2 3 DEPTH-8 1 7 2 2 3 4 5 2 3 5 2 1 1 8 1 5 1 1 9 2 14 90 NH CARD USED •SECNO 530.000 3255 DIVIDED FLOW 24JUL02 14:43:56 PAGE 59 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 7135 MINIMUM SPECIFIC ENERGY 3 72 0 CRITICAL DEPTH ASSUMED 530.000 8.23 40.12 40.12 1900.0 11.8 1259.1 629.1 .80 2.79 9.04 4.25 .005186 292. 291. 238. . 00 4 .2 . 030 0 41. 06 139.3 . 030 11 .93 147 . 9 . 030 0 1.47 717.0 . 000 .00 .00 155.2 31,89 167.99 38 . 70 37 . 74 98.54 274.92 FLOW DISTRIBUTION FOR SECNO-530.00 CWSEL- STA- 99. 105. 135. 156. 164. PER Q- .6 66.3 11.5 3.1 5.9 AREA- 4.2 13 9.3 39.0 12.5 30.2 VEL- 2.8 9.0 5.6 4.7 4.4 DEPTH- .7 4.5 2.0 1.5 1.3 136. 204. 230. 254. 275. 3.7 4.5 3.0 .3 18.9 24.8 18.8 3.8 3.7 3.5 3.1 1.6 1.1 1.0 .8 .2 1490 NH CARD USED •SECNO 540.000 7135 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 540.000 6.09 42.99 1900.0 719.2 617.3 .82 3.70 8.33 .004456 317. 314. 42 . 99 553 .5 3.55 308 . . 00 194 .4 . 030 0 43,48 74 . 1 . 030 17 .49 158 .2 . 030 0 1.50 719.6 . 000 .00 .00 167.2 36 . 90 381.32 40.69 40.70 190.92 572.24 FLOW DISTRIBUTION FOR SECNO-540.00 42 . 99 STA- 191. PER Q- 4.5 AREA- 28.5 VEL- DEPTH- 3 . 0 229. 253 3 . 5 21.3 3 . 1 . 9 268. 298. 341. 365. 374. 384. 401. 421. 4.8 4.9 3.6 5.0 4.2 6.3 32.5 10.1 3.8 21.4 28.2 27.0 29.8 16.5 21.7 74.1 38.0 19.3 4.2 3.3 2.5 3.9 4.8 5.5 3.3 5.1 3.6 1.5 .9 .6 1.3 1.3 2.2 4.5 1.9 1.1 438. 467. 4.8 27.9 3.2 1. 0 STA- 467. PER Q= 3.6 AREA- 18 . 9 VEL- 3.6 DEPTH- 1.1 483. 502. 542. 3.2 3.4 .8 18.4 25.9 9.4 3.3 2.5 1.6 1.0 .7 .3 24JUL02 14 :43 56 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 1490 NH CARD USED •SECNO 550.000 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 550.000 2 . 18 44.42 44.42 . 00 45 . 09 .67 1.29 . 00 43 .37 1900.0 154.2 1671.5 64 .2 38.2 244 . 0 32 .3 721.6 168.9 44 .10 .83 4 . 30 6.85 1.99 .030 . 030 .030 . 000 42 .24 361.31 .007088 237 . 231. 235 . 0 22 0 . 00 255.89 617.20 FLOW DISTRIBUTION FOR SECNO-550.00 CWSEL 44 42 PAGE 60 STA- 361. 397. 400. 515. PER Q- 7.6 1.0 88.0 3.4 AREA- 33.8 4.4 244.0 32.0 VEL- 4.3 4.5 6.9 2.0 DEPTH- 1.0 1.1 2.1 .3 .0 .2 .6 . 1 1490 NH CARD USED •SECNO 560.000 33 01 HV CHANGED MORE THAN HVINS 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 560.000 2.79 45.03 45.03 1900.0 .0 1900.0 .0 .83 .00 8.31 .00 .010052 110. 105. 111. . 00 .0 . 000 0 46 .24 215.7 .030 11 1.20 . 0 . 000 0 722 .2 . 000 . 00 . 00 46 00 169.4 46 50 42 .24 363 04 90.76 453 80 FLOW DISTRIBUTION FOR SECNO- 560.00 STA- 363. 458. PER Q- 100.0 AREA- 215.7 VEL- 8 . 8 DEPTH- 2 .4 •SECNO 570.000 24JUL02 14:43:56 SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 3265 DIVIDED FLOW 3301 HV CHANGED MORE THAN HVINS 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 570.000 2.15 47.65 47.65 1900.0 .0 1594.2 305.8 .84 .00 6.53 3.19 .007347 271. 194. 199. . 00 . 0 . 000 0 48.23 244.1 .030 15 .53 95.3 .030 0 1.66 723 .5 . 000 . 00 . 00 170.2 45.50 295.66 47.69 47.80 348.40 795.23 FLOW DISTRIBUTION FOR SECNO-570.00 47.65 778 . PER Q-83 9 3 5 7 . 5 4 5 6 AREA-244 1 27 2 37.8 25 3 5 5 VEL-6 5 2 5 3.3 3 4 2 0 DEPTH-1 9 1 .3 7 3 1490 NH CARD USED •SECNO 580.000 3255 DIVIDED FLOW 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 3470 ENCROACHMENT STATIONS- 265.0 580.000 4.82 51.90 51.90 1900.0 143.3 633.7 1123.0 .85 5.95 12.25 3.42 .002654 279. 243. 246. 485.0 TYPE- 1 TARGET- .00 52.83 .93 24.1 51.7 328.5 .015 .015 .040 0 20 0 220.000 1.03 .00 725.6 171.6 .000 47.08 .00 177.43 49.50 49.20 265.00 485.00 FLOW DISTRIBUTION FOR SECNO-CWSEL- STA-265 . 330. 371. PER Q= 7 5 33 2 1 4 2 4 0 3 1 16 4 14 0 9 6 5 4 AREA-24 1 51 2 5 25 2 27 3 21 6 99 5 70 0 46 4 25 9 VEL-6 0 12 3 3 7 3 2 2 8 2 7 3 1 3 8 3 9 4 0 DEPTH-4 4 1 2 7 2 1 1 7 1 7 2 1 2 8 3 0 3 0 2.4 12.6 3 . 7 2 . 9 14:43:56 PAGE SECNO DEPTH CWSEL CRIWS WSELK EG HV HL OLOSS L-BANK ELEV Q QLOB QCH QROB ALOB ACH AROB VOL TWA R-BANK ELEV TIME VLOB VCH VROB XNL XNCH XNR WTN ELMIN SSTA SLOPE XLOBL XLCH XLOBR ITRIAL IDC ICONT CORAR TOPWID ENDST 1490 NH CARD USED •SECNO 590.000 3301 HV CHANGED MORE THAN HVINS 7185 MINIMUM SPECIFIC ENERGY 3720 CRITICAL DEPTH ASSUMED 3470 ENCROACHMENT STATIONS-65.0 135.0 TYPE-1 TARGET-70 000 590.000 6 . 85 56.52 56.52 .00 5! 3.11 1. 59 1. 07 . 00 100000 00 1900.0 . 0 1900.0 . 0 .0 IS 37.6 . 0 727.3 172 . 3 100000 00 .86 . 00 10.13 .00 . 000 027 . 000 . 000 49. 67 65 00 .008018 255. 249. 251. 0 14 0 . 00 61.73 126 78 FLOW DISTRIBUTION FOR SECNO- 590.00 CWSEL- STA- 65. 135. PER Q- 100.0 AREA- 187.6 VEL- 10.1 DEPTH- 3 . 0 24JUL02 14:43:56 PAGE 63 THIS RUN EXECUTED 24JUL02 14:43:55 ************************************* HEC-2 WATER SURFACE PROFILES Version 4.6.2; May 1991 ************************************* NOTE- ASTERISK (•) AT LEFT OF CROSS-SECTION NUMBER INDICATES MESSAGE IN SUMMARY OF ERRORS LIST D ON FEMA Q FOR SAN MARC SUMMARY PRINTOUT TABLE 150 SECNO XLCH ELTRD ELLC CWSEL CRIWS EG 10•KS VCH . OIK . 00 .00 2.09 14700.00 16.27 13.45 16.90 14.94 7.08 2434.93 3803.4 20.000 88.20 . 00 2.09 14700.00 16.53 14.08 17.02 12.09 6.03 2889.31 4227.3 30.000 109.40 .00 2.10 14700.00 16.83 14.21 17.13 3.72 5.04 3430.56 4977.3 40.000 115.10 . 00 2.00 14700.00 16.91 13.89 17.23 8.48 5.16 3366.61 5043.3 50.000 141.80 2.05 14700.00 17.10 13.12 17.33 4.60 3372.98 5803. 60.000 173.00 . 00 2.00 14700.00 17.23 13.09 17.44 5.37 3.77 4036.58 5343.7 70.000 219.80 .00 .00 2.09 14700.00 17.16 12.48 17.65 21.93 3.71 2852.97 3135.6 80.000 74.80 . 00 2.09 14700.00 17.49 13.03 17.74 8.47 2.15 3976.50 5050.4 90.000 206.70 2.09 14700.00 17.72 12.63 17.91 7.46 2.88 4296.55 5381.0 100.000 118.10 . 00 2.25 14700.00 17.85 12.35 17.97 4.28 2.34 5318.58 7104.8 110.000 114.40 .00 2.20 14700.00 17.92 11.98 18.01 3 .23 2.08 5955.14 3178.0 120.000 180.30 2.27 14700.00 17.95 13.02 13.03 2.43 5095.58 6600.0 130.000 129.60 . 00 . 00 2.27 14700.00 18.02 12.79 18.13 2.58 5495.21 8749.2 140.000 274.40 .00 5.10 14700.00 18.10 12.33 18.19 1.88 2.42 6105.66 10718.4 150.000 145.90 .00 6.59 14700.00 18.12 13.12 13.22 2.17 2.46 5925.33 9976.6 160.000 147.40 . 00 6.27 14700.00 18.13 12.59 18.24 1.15 1.98 7605.42 13717.3 170.000 203.00 . 00 6.22 14700.00 18.20 13.33 18.27 1.89 2.08 7024.21 10697.8 24JUL02 14:43:56 PAGE 64 SECNO XLCH ELTRD ELLC ELMIN CWSEL CRIWS lO^KS VCH AREA 180.000 145.00 .00 6.09 14700.00 18.23 13.54 18.29 1.77 2.06 7875.98 11057.9 • 190.000 130.00 . 00 6.40 14700.00 18.21 15.35 18.33 4.87 3.04 5483.46 6658.8 200.000 160.00 .00 6.79 14700.00 18.30 14.72 18.39 2.87 2.37 5142.01 8578.4 210.000 175.50 . 00 . 00 7.28 14700.00 18.32 15.13 18.45 4.53 2.24 5223.37 6833.0 220.000 180.70 .00 .00 8.05 14700.00 18.40 15.07 13.54 4.52 2.63 5055.43 6916.5 230.000 163.70 . 00 3.19 14700.00 18.42 16.34 18.63 8.22 3.49 4120.57 5126.5 240.000 185.80 . 00 .82 14700.00 18.54 17.16 18.84 15.85 5.08 3422.22 3592.2 • 250.000 111.90 3.82 14700.00 18.49 17.81 19.11 35.85 7.41 2388.51 2455.0 • 260.000 94.60 .00 9.54 14700.00 19.10 19.10 20.35 62.29 10.62 1710.89 1362.5 270.000 80.50 .00 9.29 14700.00 19.95 19.50 20.31 52.41 .72 2104.32 2030.5 • 280.000 50.50 . 00 9.30 14700.00 20.60 17.55 20.92 11.10 4.46 3336.76 4412.6 290.000 330.30 . 00 . 00 9.60 14700.00 20.99 18.62 21.24 9.04 4.01 3523.34 4889.5 • 300.000 387.20 . 00 . 00 10.45 14700.00 21.19 20.14 21.84 32.12 7.05 2291.10 2593.6 310.000 358.20 .00 11.53 14700.00 22.13 19.71 22.41 9.22 4.50 3505.26 4842.1 • 320.000 338.90 .00 12.53 14700.00 21.95 21.95 23.24 34.14 9.86 1565.98 1502.5 • 330.000 266.70 . 00 13.12 14700.00 23.69 21.96 24.10 16.99 5.50 2847.57 3565.4 340.000 292.00 .00 13.40 14700.00 24.10 22.43 24.65 20.52 6.21 2491.49 3237.4 350.000 234.50 14.56 14700.00 24.47 23.54 25.30 37.91 7.59 2036.79 2387.4 • 350.000 305.10 . 00 14.90 14700.00 25.69 25.69 27.30 73.91 11.51 1530.10 1709.8 370.000 470.00 . 00 .00 15.20 14700.00 28.30 25.48 28.92 20.59 6.72 2333.57 3239.5 380.000 262.30 . 00 18.39 14700.00 23.74 27.82 29.53 32.37 7.92 2015.97 2563. 390.000 285.10 .00 20.16 14700.00 29.64 28.74 30.58 40.21 i.03 1892.13 2318.2 • 400.000 302.80 . 00 .00 22.10 14700.00 33.09 33.09 36.12 110.78 14.19 1076.89 1396.6 -180.000 145.00 . 00 6.09 14700.00 18.23 .00 18.29 1.75 2.06 7889.08 11084.6 • 410.000 207.00 . 00 . 00 9.39 1900.00 13.31 13.68 18.32 .97 2697.40 3729.8 • 420.000 176.70 .00 .00 10.26 1900.00 18.31 15.26 18.33 .73 1.43 1946.98 2223.9 24JUL02 PAGE 65 SECNO XLCH ELTRD ELLC CWSEL CRIWS EG lO^KS VCH . OIK • 430.000 127.60 .00 .00 14.90 1900.00 13.27 15.88 13.35 2.56 874.87 770.6 440.000 188.90 .00 15.27 1900.00 18.38 16.58 18.44 3.96 1.96 987.38 954.7 • 450.000 277.30 .00 15.33 1900.00 18.95 18.95 19.45 76.43 7.64 385.79 217.3 • 460.000 246.50 .00 .00 15.51 1900.00 21.24 21.24 21.72 37.12 8.07 450.04 311.S • 470.000 260.50 . 00 .00 15.35 1900.00 23.86 23.86 24.36 44.31 7.69 435.57 285.4 • 480.000 236.00 . 00 .00 18.84 1900.00 26.65 26.66 27.66 37.01 9.21 300.73 312.3 • 490.000 247.90 .00 23.90 1900.00 30.42 30.42 31.57 73.27 11.09 235.58 221.9 500.000 157.70 .00 25.39 1900.00 31.39 31.51 32.29 31.64 6.44 410.12 337. • 510.000 137.90 . 00 . 00 27.27 1900.00 33.67 33.67 34.24 41.94 7.69 389.38 293.4 • 520.000 261.50 .00 30.66 1900.00 36.25 ' 35.25 36.96 49.28 9.89 321.58 270.6 • 530.000 290.80 .00 31.89 1900.00 40.12 40.12 41.06 51.86 9.04 291.48 263.3 540.000 314.40 .00 36.90 1900.00 42. 42,99 43.48 44.56 8.33 426.76 284.6 • 550.000 231.00 . 00 42.24 1900.00 44.42 44.42 45.09 70. 6.85 314.42 225.6 • 560.000 105.00 .00 .00 42.24 1900.00 45.03 45.03 46.24 100.52 8.81 215.74 189.5 570.000 193.60 .00 45.50 1900.00 47.65 47.55 48.23 73.47 6.53 339.91 221.6 580.000 247.50 47.08 1900.00 51.90 51.90 52.83 25.54 12.25 404.34 368.8 • 590.000 248.90 .00 49.67 1900.00 56.52 55.52 58.11 80.18 10.13 187.51 212.1 24JUL02 14:43:55 PAGE 66 D ON FEMA Q FOR SAN MARC SUMMARY PRINTOUT TABLE 150 SECNO CWSEL DIFWSP DIFWSX DIFKWS TOPWID XLCH 10.000 14700.00 16.27 .00 426.20 . 00 20.000 14700.00 16.58 .00 550.77 83.20 30.000 14700.00 16.83 .00 .00 643.34 109.40 40.000 14700.00 16.91 .00 643.32 115.10 50.000 14700.00 17.10 .00 .18 .00 656.25 141.80 50.000 14700.00 17.23 .00 635.71 173.00 70.000 14700.00 17.16 . 00 . 07 .00 441.30 219.80 80.000 14700.00 17.49 . 00 .33 .00 565.77 74.80 90.000 14700.00 17.72 .00 561.35 206.70 100.000 14700.00 17.85 .13 .00 755.51 118.10 110.000 14700.00 17.92 .00 310.81 114.40 120.000 14700.00 17.95 .00 .03 .00 742.40 180.30 130.000 14700.00 18.02 . 00 . 07 .00 840.85 129.60 140.000 14700.00 18.10 . 00 . 08 .00 921.72 274.40 150.000 14700.00 18.12 . 00 . 02 .00 975.09 145.90 160.000 14700.00 18.18 . 00 . 06 .00 1142.73 147.40 170.000 14700.00 18.20 .00 .00 1443.97 203.00 180.000 14700.00 18.23 . 00 . 04 .00 1571.22 145.00 • 190.000 14700.00 18.21 .00 1457.93 130.00 200.000 14700.00 13.30 .00 .09 .00 1358.55 160.00 210.000 14700.00 18.32 .00 1291.03 176.50 220.000 14700.00 18.40 .00 .08 .00 1281.24 180.70 210.000 14700.00 18.42 , 00 , 02 .00 1153.35 163.70 240.000 14700.00 18.54 .00 1142.77 135.80 14:43:56 PAGE 67 SECNO Q CWSEL DIFWSP DIFWSX DIFKWS TOPWID XLCH 250.000 14700.00 13.49 .00 -.05 .00 340.53 111.90 • 260.000 14700.00 19.10 . 00 .61 .00 615.87 94.60 270.000 14700.00 19.95 . 00 .00 692.55 80.50 • 280.000 14700.00 20.60 .65 .00 705.91 50.50 290.000 14700.00 20.99 .39 .00 836.51 330.30 • 300.000 14700.00 21.19 .00 687.98 387.20 • 310.000 14700.00 22,13 .00 803.85 358.20 • 320.000 14700.00 21,95 .00 656.74 338.90 • 330.000 14700.00 23.69 . 00 .00 669.51 266.70 340.000 14700.00 24.10 . 00 .00 556.95 292.00 350.000 14700.00 24.47 . 00 .35 .00 510.60 234.50 • 360.000 14700.00 25.69 1.23 .00 457.67 305.10 • 370.000 14700.00 28.30 2.61 .00 537.90 470.00 380.000 14700.00 28.74 .00 545.40 262.30 390.000 14700.00 29.64 . 89 .00 510.42 285.10 • 400.000 14700.00 33.09 3.46 .00 184.40 302.80 -180.000 14700.00 13.23 .00 -14.86 .00 1571.35 145.00 * 410.000 1900.00 18.31 .00 669.21 207.00 • 420.000 1900.00 18.31 .00 .00 657.41 176.70 • 430.000 1900.00 18.27 .00 399.62 127.60 440.000 1900.00 18.38 . 00 .00 372.57 138.90 • 450.000 1900.00 18.95 . 00 .00 403.52 277.30 • 460.000 1900.00 21.24 2.29 ,00 416.39 246.50 • 470.000 1900.00 23.86 . 00 .00 408.61 260.50 • 480.000 1900.00 26.66 2 . 80 .00 160.33 235.00 • 490.000 1900.00 30.42 3.76 .00 112.63 247.90 24JUL02 14:43:56 PAGE 63 SECNO Q CWSEL DIFWSP DIFWSX DIFKWS TOPWID XLCH • 500.000 1900.00 31.89 .00 1.47 .00 241.58 157.70 • 510.000 1900.00 33.67 .00 1.78 .00 293.39 187.90 • 520.000 1900.00 36.25 .00 2.58 .00 241.68 261.50 • 530.000 1900.00 40.12 .00 3.87 .00 167.99 290.80 • 540.000 1900.00 42.99 .00 2.87 .00 381.32 314.40 • 550.000 1900.00 44.42 .00 1.43 .00 255.89 231.00 • 550.000 1900.00 45.03 .00 .61 .00 90.76 105.00 • 570.000 1900.00 47.65 .00 2.61 .00 295.66 193.60 • 530.000 1900.00 51.90 .00 4.25 .00 177.43 247.50 • 590.000 1900.00 56.52 .00 4.62 .00 61.78 248.90 24JUL02 14:43:56 PAGE 69 SUMMARY OF ERRORS AND SPECIAL NOTES WARNING SECNO-70.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE WARNING SECNO- 80.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE WARNING SECNO- 190.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE WARNING SECNO- 250.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE CAUTION SECNO- 260.000 PROFILE- 1 CRITICAL DEPTH ASSUMED CAUTION SECNO- 260.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY WARNING SECNO- 280.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE WARNING SECNO- 300.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE WARNING SECNO- 310.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE CAUTION SECNO- 320.000 PROFILE- 1 CRITICAL DEPTH ASSUMED CAUTION SECNO- 320.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY WARNING SECNO- 330.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE CAUTION SECNO- 360.000 PROFILE- 1 CRITICAL DEPTH ASSUMED CAUTION SECNO- 360.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY WARNING SECNO- 370.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE CAUTION SECNO- 400.000 PROFILE- 1 CRITICAL DEPTH ASSUMED CAUTION SECNO- 400.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY WARNING SECNO- 410.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE WARNING SECNO- 420.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE WARNING SECNO- 430.000 PROFILE- 1 CONVEYANCE CHANGE OUTSIDE ACCEPTABLE RANGE CAUTION SECNO- CAUTION SECNO- 450.000 PROFILE- 1 CRITICAL DEPTH ASSUMED 450.000 PROFILE- 1 MINIMUM SPECIFIC ENERGY CAUTION SECNO- 460.000 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