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Home My WebLink AboutSDP 93-01; Prime Auto Center; Site Development Plan (SDP) (2)I I I I I I I I I I I I I I I I I I I Dr. Leslie E. Penzes Certified Acoustical Consultant, P.E. 5725 Linda Vista Rd. #7 San Diego, CA. 92110 (619) 295-0338 MR. Jeff Gibson Associate Planner PLANNING DEPARTMENT City of Carlsbad 2075 Los Palmos Drive Carlsbad, CA 92009 Dear Mr. Gibson: Attached is my acoustical report entitled: "ACOUSTICAL ENVIRONMENTAL STUDY FOR THE APPLICATION OF THE PROPOSED PRIME CAR WASH AT PASEO DEL NORTE IN CARLSBAD". Your comments related to the previous acoustical report on the same subject is also attached. For any further information please feel free to contact me; I would be happy to supply it. Sincerely: Dr. Leslie E. Penzes Registered Acoustical Consultant of the City of Carlsbad, P.E. May 28, 1993 I I I I I I I I I I I I I I I I I I I Richard A. Stupin April 14, 1993 Page 3 IV. \ j 1 · ~~~ )5 . .! /'!: <{} J ' l''~J,. PROJECf DF.SCRIP110N {f' c ,.-t ' Provide additional background information on the operations of the R.aily's, Lube-N-Tune, and Prime Auto Wash in order for staff to evaluate onsite circulation and parking demands, (i.e. number of employees per each land use during peale hour shifts, number of cars tuned, washed, and served meals during peak hour intervals, the time it takes to service customers from start to finish, etc.) NOISE snmv: ~ 1. Verify the professional qualifications of the acoustical consultant. The City requires the following qualifications: 2. a. Either 1: A degree in engineering, physics or a closely related field, and four years acoustical engineering experience; Or II: an equivalent combination of education and relevant experience as determined by the City; Either A: Is a Registered Engineer in the State of California; -Or B: Has passed the Institute of Noise Control Engineering (INCE) Professional Examination. b. Is certified as an Acoustical Consultant by the County of San Diego, the County of Orange or other jurisdiction with comparable requirements. --g ·: -The methodology for detennining the noise levels\ a~ select points on the site is not clear and there are inconsistencies in the report. fue text indicates that the noise level for the 15 hp 90T Model dryer would ~~9 daA, at the exit of the tunnel, ~~er, Exhibit. 3 illusttates that at 20 feet from the dryer the noise level would ~ja dBA, and the Proto Vest Inc., specifications state it would be 83 dBA. To a-void confusion the noise analysis should focus on the type of dryer system proposed to be utilized in this carwash and the discussion of the others should be eliminated. All the examples and specifications in the study illustrate noise levels from dryers not located in a tunnel structure or located at the exit of a structure. This project proposes to locate the dryer system 20 feet into a tunnel structure, therefore, how were the noise levels determined at Points 1-3 on the site plan. Projected noise levels must reflect the proposed conditions in terms of the actual location and type of noise generating source. Noise levels should be evaluated along the southern property at worst condition, the outdoor seating area for the restaurant, and at the restaurant structure. The usable outdoor seating area should be mitigated to 60 CNEL and below if there are noise impacts, and all interior structures must be mitigate to 45 CNEL or below. I I I I I I I I I I I I I I I I I I I ACOUSTICAL ENVIRONMENTAL STUDY FOR THE APPLICATION OF THE PROPOSED PRIME CAR WASH AT PASEO DEL NORTE IN CARLSBAD SUMMARY: A noise environmental impact study was performed in order to determine the noise level at the site of the planned development project. Based on test data the noise level in L,equ. at the present time is 65.3 dBA in L,equ. as measured 196 Ft. from the western wire fence (property line) of the project site. Based on a computer simulation, the future noise level is 62.5 dBA in CNEL at the outside dining room area of the restaurant. This high noise level imposes some enviro.nmental restrictions on the const- ruction of the car wash. The plans supplied by Mr. Arnold J. Slaughter, Vice President of Carson Development, Inc. (Fig. 1), provides the preliminary design for the car wash project. Since the neighboring outside dining area of the restaurant will be potentially impacted by a noise level greater than 60 dBA in CNEL some mitigation is required for the project (Ref. 3). RECOMMENDATIONS: . To reduce the noise level below 60 dBA in CNEL, a 6 Ft. high noise barrier is required at the eastern side of the parking lot between the prime car wash and the restaurant (Alternate 1) or as an alternative, a 6 Ft high noise barrier at the western side of the outside dining area of the restaurant (Alternate 2), (Fig. 1) . . An Alternate 3 is also considered, when the noise mitigation of the Mobil's car wash will be constructed by Mobil on their own lot (Fig. 6). A noise barrier measuring 6 feet in height is recommended. The noise barrier can be a concrete or bri~k structure, or a wood frame covered by stucco on both sides, or plastic or glass measuring 1/4" thick. I I I I I I I I I I I I I I I I I I I . The car wash can be the 15 HP models, 90T or 90SX with or without the silencer. Since the proposed noise barrier will reduce the noise level to less than 60 dBA in CNEL outside of the restaurant, using normal construction practices the noise level in the restaurant will be 45 dBA or less in CNEL. Therefore, the noise limit of 45 dBA in CNEL inside of the restaurant is not violated (Ref. 3) . . As was observed, measuring the noise 196 Ft from the western wire fence (parking lot between the car wash and restaurant) the noise level is 65.3 dBA and it does not drop moving east on the lot. It was discovered that an extra noise creates this phenomenon and this is gene- rated most likely by the adjacent Mobil's car wash. To mitigate this extra noise either Mobil will be respon- sible, or to avoid any delay on the current project, a 6 Ft high noise barrier could also be erected at the northern side of the outside dining area of the restaurant (Fig. 1). Dr.Leslie E.Penzes Registered Acoustical Consultant of Carlsbad, P.E. May 28, 1993 2. I I I I I I I I I I I I I I I I I I I DISCUSSION The recommendations made as a result of this study are based on sound measurements taken at the site of the planned prime car wash project and the related computer simulations. For the computer simulations the required noise level information for the car wash was obtained by Mr. Arnold J. Slaughter, Vice President of Carson Development, Inc. and the traffic information was obtained by CALTRANS (References 4 and 5). EXTERIOR NOISE MEASUREMENTS Instruments For the exterior noise measurements, a Quest 1800 Sound Level Meter Type 1 ( Serial # HP0030025 ) with the accessory was used. The accessory included the Sound Level Calibrator by Quest Type CA-22 (Serial# J 0040030). The sound instrument was calibrated before the test and checked before each measurement. Field Test Measurements were taken in the late afternoon (between 5:30 PM and 7:04PM). Table 1 presents the results of the measurements as measured at the western wire fence on the site facing Highway #5 and at the future location of the car wash. Based on the measurements, the measured value of L,equ. for free field is (Table 1, Mean) 8 Ft. from the western wire fence: Mean, Facing Highway #5 = L,egu. Measured, Average = 69.2 dBA Table 1 also provides the measurements at the future location of the car wash (96Ft from the western wire fence), which indi- cates a drop of 3.8 dBA. This noise reduction can be explained by Highway #5 approximately 30 Ft below the site, which creates an earthberm effect. At this location the measurements indicate a mean noise level in hourly equivalent: Mean, Middle of Site = L,egu. Measured, Average = 65.4 dBA 3. I I I I I I I I I I I I I I I I I I I Table 2 shows the measurements at the eastern part of the project site at the location of the parking lot between the car wash and the restaurant. The measured higher noise values are due to the operation of a car wash at the adjacent lot. The forthcoming computer simulation will provide further explanation of this data. The measurements indicate that the noise level in L,equ. is: Mean, Eastern Part of Site = L,egu, Measured, Ave. = 65.3 dBA. This noise level will also be expected in the neighborhood of the restaurant without proper mitigation. However, as it will be shown that this noise level is not created by the current project. COMPUTER SIMULATION Due to the limited measurements (Tables 1 and 2) and the requirement of having to predict the present and future value of L,equ. and CNEL, computer simulations and predictions are required. Table 3 presents the input and output for the eight lane road (References 1 and 2). To simulate the test data of Table 1, the following steps were taken. According to CALTRANS (Ref. 4) the present value of ADT is 151,000 Vehicles/Day and the peak traffic volume was estimated based on the formula suggested by Wyle' s Report (Ref.6): Peak Traffic= 0.87{ADT)/15 = 0.87*151,000/15 = 8758 Vehicles/Hour The traffic mixture of cars, medium and heavy trucks is obtained according to Ref. 5 and an average speed of 55 MPH was applied. Table 4 provides a noise level of 69.9 dBA in L,equ. This value is somewhat higher than the measured value of 66.2 dBA (5.5 %) . On Table 5 with an estimated traffic volume of 7360 Vehicles/Hour (19%), the calculated noise level is 69.19 dBA in L,equ., which shows an excellent correlation with the test data {Table 1) . Applying the same traffic information Table 6 provides a noise level of 66.66 dBA in L,equ. at the middle of the outside dining area ( Fig. 1, trellis). It should be noted that both of these noise levels must be further reduced due to the effect of Highway #5 which runs in a valley (earthberm). Based on the traffic information obtained by CALTRANS the future traffic volume is 200,000 ADT. Table 7 provides the noise level at the outside dining area applying traffic mixture of cars 4. I I I I I I I I I I I I I I I I I I I (93%), medium (3. 3%) and heavy trucks (3. 7%) as before and for daily distribution of 76%, for evening distribution of 11 % and for night distribution of 13%. Based on Table 7 the noise level in CNEL is: CNEL,Future,Outside Dining Area = 69.5 dBA Earthberm and Noise Barrier To account for the effect of the noise generated by Highway #5 at the project site and to consider also mitigation the computer method of noise barriers is introduced (References 1 and 2). Table 8 presents the input and output of the noise barrier program (Ref. 's 1 and 2) . Table 9 shows the noise reduction produced by an earthberm estimated by an elevation of 30 Ft. as: Noise Reduction = 9.5 dBA Applying this noise reduction to the noise level determined at the outside dining area of the restaurant the hourly equivalent is: L,egu. = 66.6 -9.5 = 57.1 dBA This should be the noise level measured at the eastern part of the project without the noise created by the adjacent car wash. The future value of CNEL at the outside dining area applying the effect of earthberm is: CNEL, Future, earthberm = 69.5 -9.5 = 60 dBA Since, this noise level will be further increased by the introduction of the new proposed car wash, mitigation will be required. NOISE LEVELS OF CAR WASH Fig. 1 provides the layout of the development including the car wash. Fig. 2 shows the noise levels around a 90XS Stripper. Fig. 3 illustrates the concept of the Silencing Package for the 15 HP Stripper. Fig. 4 provides the noise reduction of a Standard 15 HP Stripper as a function of distance. Fig. 5 shows the noise 5. I I I I I I I I I I I I I I I I I I I reduction due to distances for the 15 HP Strippers, Models 90T, 90T with silencer and Model 90XS with silencer. The noise levels of Fig. 4 and Fig. 5 are for the Stripper without Silencer are identical (Model 90T without Silencer) . The silencer reduces the noise by 5 dBA for Model 90T and the noise reduction is 9 dBA for Model 90XS. The noise levels on Fig. 4 and Fig. 5 (Model 90T without silencer) can be calculated by the following formula: Noise Level of car Wash= 94-20LOG{(5.5 + Distance)/5.5} Distance >= 10 Ft. Table 10 shows a comparison of the calculated noise levels by the test data. As this comparison shows the maximum error is 5%. For larger distances the above formula is corrected by this error as: Noise Level of Car Wash, Corr.={94-20LOG[(5.5+Distancef5.5)}/1.05 Distance >= 100 Ft. Applying this formula the noise level of the 15 HP Stripper without silencer at a distance of 150 Ft, which is the distance between the car wash and the outside dining area is: Noise Level, 15 HP = {94-20LOG[(150+5.5)/5.5)}/1.05 = 61.87 dBA The noise level at the outside dining area for the Model 90T with silencer is: Noise Level, 90T with Silencer = 61.87-5 = 56.9 dB A The noise level of Model 90XS with Silencer at the location of the outside dining area is: Noise Level, 90XS with Silencer = 61.87-9 = 52.3 dB A Combining the noise level of the lowest calculated value by Model 90XS with silencer is: CNEL, COMBINED = 10LOG( 10A5.23+10A6} = 62.5 dBA Obviously mitigation is required, since the computed noise level of 62.5 dBA in CNEL is higher, than the noise limit of 60 dBA in CNEL set by the City of Carlsbad. 6. I I I I I I I I I I I I I I I I I I I MITIGATION Alternative #1. To reduce the noise level created by Highway #5 and the from the car wash a 6 Ft. high noise barrier must be erected on the eastern side of the parking area between the car wash and the restaurant (Fig. 1). Table 11 provides the noise reduction of the combined earthberm and noise barrier at the location of the outside dining area as: Noise Reduction, Combined = 12.67 dBA Applying this value to the CNEL for the future noise level determined previously, the noise level in CNEL from Highway #5 at the outside of the dining area is: CNEL, Earthberm, Barrier = 69.5-12.67 = 56.8 dBA Table 12 shows the noise reduction for the car wash due to the effect of a 6 Ft. high noise barrier: Noise Reduction, Car wash = 5.35 dBA Assuming that the 15 HP Stripper without silencer is used, the noise level in CNEL due the noise barrier at the outside dining area is: CNEL, Car wash = 61.87-5.35 = 56.5 dBA The noise created by Highway #5 and the car wash must be combined as: CNEL,Comb. Outside Dining= 10LOG( 10A5.68+10A5.65) = 59.6 dBA This value is lower than the noise limit of 60 dBA of the City of Carlsbad. Applying the 15 HP Stripper with silencer the noise level in CNEL will be even less, than determined above. Alternative #2. As another possibility in order to create better visibility of the car wash from the street, instead of a the noise barrier at the eastern side of the parking lot, it is recommended a noise barrier be placed at the western side of the outside dining area. 7. I I I I I I I I II I I I I I I I I I I I Table 13 provides the noise reduction of the combined earthberm and noise barrier at the location of the outside dining area as: Noise Reduction, Combined= 13.2 dBA Applying this value to the CNEL of the future determined previously, the noise level in CNEL from Highway #5 at the outside of the dining area is: CNEL, Earthberm, Barrier= 69.5-13.2 = 56.3 dBA Table 14 shows the noise reduction for the car wash due to the effect of a 6 Ft. high noise barrier: Noise Reduction, Car wash = 5.44 dBA Assuming that the 15 HP Stripper without silencer is used, the noise level in CNEL due to the noise barrier at the outside dining area is: CNEL, Car wash = 61.87-5.44 = 56.4 dBA The noise created by Highway #5 and the car wash must be combined as: CNEL,Comb. Outside Dining= 10LOG( 10~5.63+10~5.64) = 59.3 dBA This value is lower than the noise limit of 60 dBA of the City of Carlsbad. Applying the 15 HP Stripper with silencer the noise level in CNEL will be even less, than determined above. CONCLUSION Erecting a 6 Ft high noise barrier at the eastern side of the parking lot between the car wash and the restaurant, any type of 15 HP Stripper car Wash with or without Silencer can be used and the noise level in CNEL at the location of the outside dining area of the restaurant will be less than 60 dBA. Therefore the noise limit of 60 dBA of the City of Carlsbad will not be violated. 8. I I I I I I I I I I I I I I I I I I I REFERENCES 1. (U.S.) Federal Highway Administration, Washington D.C. Dec. 1978, P881-194227. 2. DEPARTMENT OF TRANSPORTATION, Office of Transportation Labo- ratory: "California Vehicles Noise Emission Levels''· (Calveno) Feb. 28, 1985. 3. Review Comments of the Acoustical Study submitted by Carson Development Inc. 4. CALTRANS: "Traffic Volumes California state Highways, District 11, 1979-1991. 5. CALTRANS: "1990 Annual Average Daily Truck Traffic on the California State Highway System". November 1991. 6. Wyle Laboratories. Development of Ground Transportation System Noise Contours for the San Diego Region. Wyle Research Report . . WCR 73-8. Dec. 1973. Jack w. swing. 9. I I I I I I I I I I Ol<:'(IN6 P.'<i?l-> f'I-<;KiN6 I ! I I I I I I I I ()t-1el..l>l.vic.,t... 16":,;.!.. ® <QLJ!Eli>-N f".AI.11 ~..+'' f%'1<. ·~ Clr>.ie FJ..l.l'1 4!>1 ~Rowt.J IRVJ-lt.::.. BJ cq"AZA~Ijlo. ~ 1a"olc. ~ pA-7Kir-le ~ 1'l.11.i>tc::. cOO M..t>-fP.l·l'i1-IA I GAL <!e-ll!!>' o/c. ~ f'lffl<?f.'~Ut'1 TO~I~ I? G.AL ~ ?,t;,''o/c I?'?E!> "SF 4+88~1" (i . J. __J_----------'\.--PASEO DEL NORTE SITE PLAN ·' tOT AAf!A:. 1.~15 ~ ~I?TIH6 Z.ONE. •; C..·T -pfit0fl?5¢D 7-oNe-: c:. T Toft:>.l. e>L.IA'o coveRA6e. GS4'1 ?F evlLDit-16 <;;q ~TAG; E ;:·~ W.A-~ Z.t:;.OO <$~ ;·pe.,-,.,..IL _ !5!$0Sf ;_?Al..e.<?/OfFIC.f! . ':Z;OOISF". L.Vf>i!:·N·TUNI!' 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I I I I I 95 I 90 85 I se II ~r--/ _) ! .-c , w 70 I 0 65 I 60 55 I 50 I 45 I I I I I I STRIPPER SOUND LEVELS ----------------.... --....... -....... .... ....... ....... a.._ ....... 'o._ 't! ••••• 15 H.P. HODEL 90T WITHOUT SILENCER a~ tJ-.CI 16 H. P. HODEL 90T WITH SILENCER I)~~ 15 H.P. HODEL 9@XS WITH SILENCER 6 ' 7 9 2 10 DISTAt\JCE \" .. J _) ~ v. :t I I I, I \ o\ p ~ ~ ' ~ " ---------~ SToRY AJ<f'.A \ ~ ,, \ \ \ \ . ' ' \ l ,, ----~ A:?f'~1 ov6~ \ \ '.OVE:?RH ~/ /fRr: LLI~ I Jl Sf' A\---IIGH ·c.!:J L \ -~0 ~ -0 I U\ () '-V r }I cG -z t ~1ST Gi<,D L \f-It::~ \'2> .. · DR'(lNG AR_E:,b f'/--R~NG 11 1$:, 'II? )14 I'? 1''2. 1'' 1'0 ! I~ ! I I ' ! 0 I l i .... , l{\ . I f' 4 I '28 A C C :;. (;>-;. 1' 0 p /-'\ ! ___ , J ' 1 ,.· .-~-; ,_:-. I ., -~-" •·/ ,_... ' ----\..=-=o _, L0 ($ ~o!o" 24'-o'' ~a'' T\f' I "{~'20 f'K<4(ryp) . -tof;r~~f;f~T J Js-(c -, .. 8 4 . _O~~--__::_..::.Y __ r~--...x-.:.r..:::::!:? >0 ,,, , .. -,. l \• .:. •' ."\. ,.. .... ------··----- / A· ';J;, -./'~ L o" r::·' II . . . ~ 4Y.. -'24 c:, P:;J • C/ --~--~:~o~---J--~--~--~~~~ .. 6 I ••.. --__ .k,. •..._.; ...... ~· •. . \ r o: !:'~,,._ :· ~ ,..; ( .......... ~ ~- -0 i(> ' ' -------· -· ~-~-------~- ' ' .. (! I I I I I I I I I I I I I I I I I I I Table 1. MEASUREMENTS Facing Highway #5 at the Western Fence RESET Time(PM) 6:40 6:45 6:47 6:50 6:52 6:55 7:00 7:05 L,equ (dBA) Start of Measurement 69.0 68.7 69.1 69.4 69.3 69.4 69.4 Location of Instrument (Ft) X = 30 y = 8 Location of Instrument: X = 30 Ft from the corner of the western property line Y = 8 Ft being the distance between the instrument and the western property line L.egu. ,Mean = (69.0+68.7+69.1+69.4+69.3+69.4+69.4)/7 = 69.18 dBA = 69.2 dBA Reset Time (PM) 5:30 5:35 5:37 5:40 5:45 5:50 L,equ. (dBA) Start of Measurement 65.9 64.9 65.7 65.2 65.1 Location of Instrument (Ft.) X = 40 y = 96 Location of Instrument: X = 40 Ft from the southern property line Y = 96 Ft, being the distance between the instrument and the western property line L,egu .. Mean = (65.9+64.9+65.7+65.2+65.1)/5 = 65.36 dBA = 65.4 dBA I I I I I I I I I I I I I I I I I I I Reset Time(PM) 6:00 6:05 6:15 6:20 6:25 6:30 Table 2. MEASUREMENTS Eastern Side of the Project L,equ. (dBA) Start of Measurement 63.2 65.5* 65.7* 65.7* 66.5* Location of Instrument (Ft.) X = 40 y = 196 Location of Instrument: X = 40 Ft from the southern property line Y = 196 Ft being the distance between the instrument and the western property line L.egu .. Mean= (63.2+65.5+65.7+65.7+66.5)/5 = 65.32 dBA = 65.3 dBA * = Extra Noise due to the Operation of Car Washer at Adjacent Property 1 LOAD"C~.LVE"03.EAS"1'a hit 1/A I G;: T-I:i 100-150 ~ ~>1 F.~.:: .Z:,N.ALY'TICAL PREDICTION OF HJ:C~:F.'i :, JQ PI<~i CJ.,-i:.,':JI:NO EfHSSIOi'J A:lu TEE FL:D:L?..;-,,~. 1~CJISL, Elc.:I-rl' L!~r<;:s I J 13 .RI::-: AWE'J=Autos 1 Host-Nearest 115 PE~I ANN=lmtos 1 Nearest HlGI-I';·I.'\Y ADl;IST£\ATIOl-1 t:IODEL 116 REM ANM=Autos 1 Mid-Near I 120 REr1 AN=Autos 1 Near 130 REM AF=Autos 1 Far 131 REM AFM=Autos 1 Mid-Far I 135 REM AFF=Autos,Farest 137 REM AFFF=Autos,Most-Farest 138 REM MNNN=Medium Trucks,Most-Nearest 140 REM MNN=Medium Trucks,Nearest I 141 REM MNM=Medium Trucks,Mid-Near 142 REM MN=Medium Trucks,Near 143 REM MF=Medium Trucks,Far I 144 REM MFM=Medium Trucks,Mid-Far. 145 REM MFF=Medium Trucks,Farest 147 REM MFFF=Medium Trucks,Most-Farest I 150 REM HNNN=Heavy Trucks,Most-Nearest Ok I 'I I I I I I I I I I 1LIST 2RUN 3LOAD" 4SAVE" 5CONT LIST 151-205 152 REM HNN=Heavy Trucks,Nearest 154 REM HNM=Heavy Trucks,Mid-Near 155 REM HN=Heavy Trucks,Near 156 REM HF=Heavy Trucks,Far 160 REM HFM=Heavy.Trucks,Mid-Far· 161 REM HFF=Heavy Trucks,Farest 6,11 LPT1 7TRON 170 REM HFFF=Heavy Trucks,Most-Farest 174 REM SANNN=Speed of Autos,Most-Nearest 176 REM SANN=Speed of Autos,Nearest 177 REM SANM=Speed of Autos,Mid-Near 180 REM SAN=Speed of Autos,Near 190 REM SAF=Speed of Autos,Far 191 REM SAFM=Speed of Autos,Mid-Far 195 REM SAFF=Speed of·Autos,Farest 197 REM SAFFF=Speed of Autos,Most-Farest 198 REM SMNNN=Speed of Mid-Trucks,Most-Nearest 200 REM SMNN=Speed of Medium Trucks,Nearest 201 REM SMMN=Speed of Medium Trucks,Mid-Near 202 REM SMN=Speed of Medium Trucks,Near 203 REM SMF=Speed of Medium Trucks,Far 205 REM SMFM=Speed of Medium Trucks,Mid-Far Ok 8TROFF 9KEY OS CREE I I :~co::::-?Ci-,-255 r· s_:_.·--I~==Sl;=-~--~-o ..... SY.i~··rr=-:::~C-~·~: c)~~ I_·=:\~~ .~.t~::_ rj__ ~~(. :~. I I ~ .i ~ .::::~.:.!l\;ir==SJ:JC<::c1 0~ I~:-~=--'/Y ~~--~~-.. L~.:_:-r-'~-:~:: --~-:~ -=~-L:::.:.;~c :? 1 G P.~~~·i S~-~~-;·::..=~-)~.J:::r:3Ci o~ 1--1;~·~·_-.;_,-,,,:-rJ.":c1...1:::::-c::, ~~ -·-:-: -;_-c·::~::-~: D,,[·'-';1· C''TJ<'''1--r~-,-=:,-crl of' I-Te>-v~-'Irur·[-,,; -i(_--''ec::r g:J'_j-Cl-..._",j_'--W£-1·.=..::....._ ..~-..&.'--·;...l.v_j -_.,~ .. '---I~• . ....L • .._t 2~0 REI Sf-il'i=Spc:>od o'i: Heavy Trucks,lJez,r 230 REM SHF=Speed of Heavy Trucks,Far 231 REM SHMF=Speed of Heavy Trucks,Mid-Far 235 REM SHFF=Speed of Heavy Trucks,Farest I 237 REM SHFFF=Speed of Heavy Trucks,Most-Farest 238 REM VANNN=Volume of Autos,Most-Nearest 240 REM VANN=Volume of Autos,Nearest 241 REM VANM=Volume of Autos,Mid-Near I 242 REM VAN=Volume of Autos,Near 243 REM VAF=Volume of Autos,Far 245 REM VAFM=Volume of Autos,Mid-Far I 246 REM VAFF=Volume of Autos,Farest 248 REM VAFFF=Volume of Autos,Most-Farest 254 REM VMNNN=Volume of Medium Trucks,Most-Nearest I I I I I I I I I I I I LIST 255-330 256 REM VMNN=Volume of Medium Trucks,Nearest 257 REM VMNM=Volume of Medium Trucks,Mid-Near 258 REM VMN=Volume of Medium Trucks,Near 259 REM VMF=Volume of Medium Trucks,Far 260 REM VMFM=Volume of Medium Trucks,Mid-Far 261 REM VMFF=Volume of Medium Trucks,Farest 263 REM VMFFF=Volume of Medium Trucks,Most-Farest 274 REM VHNNN=Volume of Heavy Trucks,Most-Nearest 276 REM VHNN=Volume of Heavy Trucks,Nearest 277 REM VHMN=Volume of Heavy Trucks,Mid-Near 280 REM VHN=Volume of Heavy Trucks,Near 290 REM VHF=Volume of Heavy Trucks,Far 291 REM VHFM=Volume of Heavy Trucks,Mid-Far 295 REM VHFF=Volume of Heavy Trucks,Farest 297 REM VHFFF=Volume of Heavy Trucks,Most Farest 300 REM B=Angle,Total Angle(Hard site);computed Integrated Angle(Soft Site) 320 REM DO=Reference Distance 330 REM D1=Arbitrary Distance,Most-Nearest LIST 331-400 ', 336 REM D3=Arbi.trary-Distance,Nearest 337 REM D4=Arbitrary Distance,Mid-Near 338 REM D5=Arbitrary Distance,Near 339 REM D6=Arbitrary Distance,Far 340 REM D7=Arbitrary Distance,Mid-Far 341 REM D8=Arbitrary Distance,Farest 343 REM D10=Arbitrary Distance,Most-Farest 349 REM A=Site Hardness 350 REM G=Grade(%) 360 REM AB=Adjustment of Building or Coverage 362 REM Lij=LeqjH:EQUIVALENT SOUND LEVEL(dBA) FOR A CLASS OF VEHICLES 364 REM WHERE i=1,2,3 (AUTO,MEDIUM TRUCK,HEAVY TRUCK) 365 REM WHERE j=1,2,3,4 (Most-Nearest,Nearest,Mid-Near,Near) 366 REM WHERE j=6,7,8,9 (F~r,Mid-Far,Farest,Most-Farest) 367 REM D=PERCENT OF DAYTIME TRAFFIC 368 REM E=PERCENT OF EVENING TRAFFIC 369 REM N=PERCENT OF NIGHTTIME TRAFFIC I I I I I I I I I I I I I I I I I I I ~-' ' ' . r, SJ,S~,8;,89,?9,89,89 ~-.1\~ ~::~R \7;--.r__jc_ss f'.J? s:.;FFF ? 89 I:NTER VALGES FO~\. S."l~iiiN I SHNN I SHNMI SHN I SHF I SHH11 SHFF ? 89189189,89139,89,89 L!T .21.:.: VALUES FOR SHFFF '7' 89 ENTER VALUES FOR VANNN,VANN 1VANM,VAN 1VAF 1VAFM,VAFF ? 101811018,1018,1018,1018,1018,1018 ENTER VALUES FOR VAFFF ? 1018 ENTER VALUES FOR VMNNN,VMNN,VMNM,VMN,VMF,VMFM,VMFF ? 36,36,36,36,36136136 ENTER VALUES FOR VMFFF ? 36 ENTER VALUES FOR VHNNN 1VHNN 1VHNM 1VHN 1VHF 1VHFM 1VHFF ? 41141141,41141141,41 1LIST 2RUN 3LOAD" 4SAVE" 5CONT 6 111LPT1 7TRON ENTER VALUES FOR SHNNN 1SHNN 1SHNM 1SHN 1SHF 1SHFM SHFF ? 89,89189189 189 189 189 I ENTER VALUES FOR SHFFF ? 89 ENTER VALUES FOR VANNN,VANN,VANM,VAN 1VAF 1VAFM 1VAFF ? 10181101811018,1018110181101811018 ENTER VALUES FOR VAFFF ? 1018 ENTER VALUES FOR VMNNN 1VMNN 1VMNM 1VMN VMF VMFM VMFF ? 6 3 I I 1 • 3 1 6136136136 136 136 ENTER VALUES FOR VMFFF ? 36 ~NTER VALUES FOR VHNNN I VHNN I VHNM, VHN I VHF I VHFMI VHFF . 41,41,41,41141141,41 ENTER VALUES FOR VHFFF ? 41 ENTER VALUES FOR B,DO,D1,D3,D4,D5,D6 ? 180,151121.41124.91128.6,132.2,142 ENTER VALUES FOR D7 1D8 1D10 ? 145.6,149.31152.9 ENTER VALUES FOR D,E,N ? 110,0 ENTER VALUES FOR A,G 1AB ? 0.210,0 8TROFF 9KEY OS CREE I 'fo.bl~ 4/S I LOANNN= 72.83632 LOAFF= 72.83632 813=-2.65551 811=-2.65551 823=-17.16996 821=-17.16996 833=-16.60515 831=-16.60515 I 817=-2.65551 818= 0 827=-17.16996 828= 0 837=-16.60515 838= 0 I 815=-2.65551 816=-2.65551 836=-16.60515 AD1=-11.34168 AD2=-11.71436 I I I I AD6=-11.84484 AD7=-10.89753 L13= 59.13516 L11= 58.83913 L23= 51.68877 L21= 51.39274 L33= 56.17749 L31= 55.88146 L15= 58.98302 L16= 58.33597 L35= 56.02535 L36= 55.37831 L17= 59.28328 L18= 0 L27= 51.83689 L28= 0 L37= 55.88146 L38= 0 LEQH(COMBINED)= 69.96843 CNEL= 69.96843 ENTER VALUES FOR D,E,N ? !< LOANN= 72.83632 LOAFM= 72.83632 812=-2.65551 814=-2.65551 822=-17.16996 824=-17.16996 832=-16.60515 834=-16.60515 819= 0 8110=-2.65551 829= 0 8210=-17.16996 839= 0 8310=-16.60515 LOANM= 72.83632 825=-17.16996 826=-17.16996 835=-16.60515 AD3=-11.04565 08= 0 L12= 58.46645 L22= 51.02006 L32= 55.50878 L25= 51.53662 L19= 0 L29= 0 L39= 0 AD4=-11.97562 AD9= 0 L14= 58.20519 L24= 50.7588 L34= 55.24752 L26= 50.88958 L110= 58.08102 L210= 50.63462 L310= 55.12335 AD5=-11.1978 AD10=-12.0998 AF8= 0 1LI8T 2RUN 3LOAD" 48AVE" 5CONT 6,"LPT1 7TRON 8TROFF 9KEY 08CREEN I I I I I I I I I I I I ' ,- C" ' ~ -<...., -~.. ,· ., -· ·:-" -~-~ ... _l -~ • .1. ! : ,_: I .._ .' -,' ..__ .._-:.._ -.... -l ·- I ·: ~' _- L=·~:iLi-~ --:~~).Ijt.;_,_::s rc::~~ s~~~~ilr~:, s~-I~-r~r, s~·L·Jl·i, Sl·.;.li, s:-;.;.=~, s~:Fi·!, ~--~~:·/ ? 29,S9,S9,20,89,89,89 I ~;;~~E VALUES FO~< SH?FF ENTER VALUES FOR SHNNN,SHNN,SHNM,SHN,SHF,SHFM,SHFF ? 89,89,89,89,89,89,89 I ENTER VALUES FOR SHFFF ? 89 ENTER VALUES FOR VANNN,VANN,VANM,VAN,VAF,VAFM,VAFF I ? 856,856,856,856,856,856,856 ENTER VALUES FOR VAFFF ? 856 I ENTER VALUES FOR VMNNN, VMNN, VMNM, VMN, VMF, VMFM, VMFF ? 30,30,30,30,30,30,30 ' ENTER VALUES FOR VMFFF ? 30 I ENTER VALUES FOR VHNNN,VHNN,VHNM,VHN,VHF,VHFM,VHFF ? 34,34,34,34,34,34,34 1LIST 2RUN . 3LOAD 11 4SAVE11 5CONT 6,"LPT1 7TRON 8TROFF 9KEY 08CREE I I I I I I I 813=-3.408251 S11=-3.408251 S23=-17.96178 S21=-17.96178 S33=-17.4182 831=-17.4182 817=-3.408251 818= 0 827=-17.96178 828= 0 837=-17.4182 838= 0 S15=-3.40S251 816=-3.408251 S36=-17.4182 AD1=-10.39654 AD2=-10.73817 ADG=-10.85777 AD7=-9.989401 L13= 59.30289 L11= 59.03153 L23= 51.81742 L21= 51.54606 L33= 56.28491 L31= 56.01356 L15= 59.16342 L16= 58.5703 L35= 56.14545 L36= 55.55232 L17= 59.43867 L18= 0 L27= 51.9532 L28= 0 L37= 56.01356 L38= 0 LEQH(COMBINED)= 70.15153 CNEL= 70.15153 ENTER VALUES FOR D,E,N I ? 1,0,0 ENTER VALUES FOR A,G,AB ? 0.2,0,0 I I I 812=-3.408251 814=-3.408251 822=-17.96178 824=-17.96178 832=-17.4182 834=-17.4182 S19= 0 8110=-3.408251 S29= 0 S210=-17.96178 839= 0 8310=-17.4182 825=-17.96178 826=-17.96178 835=-17.4182 AD3=-10.12518 AD4=-10.97766 AD5=-10.26465 08= 0 AD9= 0 ' AD10=-11. 09148 L12= 58.68991 L14= 58.45042 AF8= 0 L22= 51.20444 L24= 50.96495 L32= 55.67193 L34= 55.43244 L25= 51.67796 L26= 51.08483 L19= 0 L110= 58.3366 L29= 0 L210= 50.85113 L39= 0 L310= 55.31862 I I I I I I I I I I I I I I I I I I I LOANNN= 72.83632 LOAFF= 72.83632 813=-3.408251 811=-3.408251 823=-17.96178 821=-17.96178 833=-17.4182 831=-17.4182 817=-3.408251 818= 0 827=-17.96178 828= 0 837=-17.4182 838= 0 815=-3.408251 816=-3.408251 836=-17.4182 AD1=-11.34168 AD2=-11.71436 AD6=-11.84484 AD7=-10.89753 L13= 58.38242 L11= 58.08639 L23= 50.89695 L21= 50.60092 L33= 55.36444 L31= 55.06842 L15= 58.23028 L16= 57.58323 L35= 55.2123 L36= 54.56526 L17= 58.53054 L18= 0 L27= 51.04508 L28= 0 L37= 55.06842 L38= 0 LEQH(COMBINED)= 69.19366 CNEL= 69.19366 ENTER VALUES FOR D,E,N ? LOANN= 72.83632 LOAFM= 72.83632 812=-3.408251 814=-3.408251 822=-17.96178 824=-17.96178 832=-17.4182 834=-17.4182 819= 0 8110=-3.408251 829= 0 8210=-17.96178 839= 0 8310=-17.4182 825=-17.96178 826=-17.96178 AD3=-11. 04565 DB= 0 L12= 57.71371 L22= 50.22824 L32= 54.69573 L25= 50.74481 L19= 0 L29= 0 L39= 0 AD4=-11.97562 AD9= 0 L14= 57.45245 L24= 49.96698 L34= 54.43447 L26= 50.09777 L110= 57.32828 L210= 49.84281 L310= 54.31031 LOANM= 72.83632 835=-17.4182 AD5=-11.1978 AD10=-12.0998 AF8= 0 1LI8T 2RUN 3LOAD" 48AVE" 5CONT 6,"LPT1 7TRON 8TROFF 9KEY OSCREEN I I I .. - 1,· -. ~ 1 ..L . c: \._' '-'- r--. (~ ( r -r' 1• . f I~ • .. {_ :;_, I :_ . ' '. .' ' ( L'-1 • ) ...L. 1.) -l (' ' <:. .-. (~ ' ,·, ':/'! L'-( (.-I •_, ,-- ' i - .... ·' ' I I -<T.:.:R \'~~LuES ro:::~ s:iN:l:i I 8E:r;; I s~aml 2::-1~:, s:-IP I SHFJ:·:, SHFF ? 89 18S,89 189 189 189 189 ENTER VhLUES FCR SRFFF ? 89 I :r::?~TER \7J:,LUES FOR ·v-;,ln·:i·J I VANN 1 VAN1·1~ vAN I VAF', VAFH, VAFF ? 856,856,856,8561856,856,856 I ENTER VALUES FOR VAFFF ? 856 ENTER VALUES FOR VMNNN,VMNN,VMNM,VMN,VMF,VMFM,VMFF ? 30,30,30,30,30,30,30 ENTER VALUES FOR VMFFF I ? 30 ENTER VALUES FOR VHNNN,VHNN,VHNM,VHN,VHF,VHFM,VHFF ? 34,34,34,34,34,34,34 I ENTER VALUES FOR VHFFF ? 3-4 1LIST I I I I I I I I I I I 2RUN 3LOAD" 4SAVE 11 5CONT 6,"LPT1 7TRON ENTER VALUES FOR SHNNN,SHNN,SHNM,SHN,SHF,SHFM,SHFF ? 89,89,89,89,89,89,89 ENTER VALUES FOR SHFFF ? 89 ENTER VALUES FOR VANNN,VANN,VANM,VAN,VAF,VAFM,VAFF ? 856,856,856,856,856,856,856 ENTER VALUES FOR VAFFF ? 856 ENTER VALUES FOR VMNNN,VMNN,VMNM,VMN,VMF,VMFM,VMFF ? 30,30,30,30,30,30,30 ENTER VALUES FOR VMFFF ? 30 ENTER VALUES FOR VHNNN,VHNN,VHNM,VHN,VHF,VHFM,VHFF ? 34,34,34,34,34,34,34 ENTER VALUES FOR VHFFF ? 34 ENTER VALUES FOR B,DO,D1,D3,D4,D5,D6 ? 180,15,206.2,209.7,213.4,217,226.8 ENTER VALUES FOR D7,D8,D10 ? 230.4,234.1,237.7 ENTER VALUES FOR D,E,N ? 1,0,0 ENTER VALUES FOR A,.G, AB ? 0.2,0,0 8TROFF 9KEY OSCREEN I I I I N LOANNN= 72.83632 LOAFF= 72.83632 813=-3.408251 811=-3.408251 823=-17.96178 821=-17.96178 833=-17.4182 831=-17.4182 817=-3.408251 S18= 0 827=-17.96178 S28= 0 837=-17.4182 S38= 0 815=-3.408251 816=-3.408251 836=-17.4182 ADl=-13.92442 AD2=-14.15462 I AD6=-14.23669 AD7=-13.65837 L13= 55.68199 L11= 55.50365 L23= 48.19652 L21= 48.01818 I L33= 52.66401 L31= 52.48567 L15= 55.59083 L16= 55.19138 L35= 52.57286 L36= 52.1734 L17= 55.7697 L18= 0 I L27= 48.28424 L28= 0 L37= 52.48567 L38= 0 LEQH(COMBINED)= 66.66853 I CNEL= 66.66853 ENTER VALUES FOR D,E,N ? LOANN= 72.83632 LOAFM= 72.83632 812=-3.408251 814=-3.408251 822=-17.96178 824=-17.96178 832=-17.4182 834=-17.4182 LOANM= 72.83632 S19= 0 8110=-3.408251 S29= 0 8210=-17.96178 S39= 0 8310=-17.4182 825=-17.96178 826=-17.96178 AD3=-13.74609 08= 0 L12= 55.27345 L22= 47.78799 L32= 52.25548 L25= 48.10537 L19= 0 L29= 0 L39= 0 AD4=-14.31972 AD9= 0 L14= 55.10835 L24= 47.62288 L34= 52.09037 L26= 47.70591 L110= 55.02882 L210= 47.54335 L310= 52.01084 835=-17.4182 AD5=-13.83724 AD10=-14.39926 AFS= 0 I 1LIST 2RUN 3LOAD" 4SAVE" 5CONT 6,"LPT1 7TRON 8TROFF 9KEY OSCREEN I I I I I I I I I I I I I I I I I I I II I I I I I I · i :::·I'--! ·--~. ;,_· ~.J-~lJ:!=s V.i\LUES ? 89 --,--.-·. _r_· v·_._ ~--·--.,.-, , ,S- r -. ·-, ----,--, ~; _. \ :: ;: i. ENTER VALUES FOR VANNN,VANN,VANM,VAN,VAF,VAFM,VAFF ? 969,969,969,969,969,969,969 . ENTER VALUES FOR VAFFF ? 969 ENTER VALUES FOR VMNNN,VMNN,VMNM,VMN,VMF,VMFM,VMFF ? 34,34,34,34,34,34,34 1LIST 2RUN 3LOAD" 4SAVE" 5CONT 6,"LPT1 7TRON ENTER VALUES FOR SHNNN,SHNN,SHNM,SHN,SHF,SHFM,SHFF ? 89,89,89,89,89,89,89 ENTER VALUES FOR SHFFF ? 89 ENTER VALUES FOR VANNN,VANN,VANM,VAN,VAF,VAFM,VAFF ? 969,969,969,969,969,969,969 ENTER VALUES FOR VAFFF ? 969 ENTER VALUES FOR VMNNN,VMNN,VMNM,VMN,VMF,VMFM,VMFF ? 34,34,34,34,34,34,34 . ENTER VALUES FOR VMFFF ? 34 ENTER VALUES FOR VHNNN,VHNN,VHNM,VHN,VHF,VHFM,VHFF ? 39,39,39,39,39,39,39 ENTER VALUES FOR VHFFF ? 39 ENTER VALUES FOR B,DO,D1,D3,D4,D5,D6 ? 180,15,206.2,209.7,213.4,217,226.8 ENTER VALUES FOR D7,D8,D10 ? 230.4,234.1,237.7 ENTER VALUES FOR D,E,N ? 0.76,0.11,0.13 ENTER VALUES FOR A,G,AB ? 0.2,0,-1.5 8TROFF 9KEY OSCREEN LOANNN= 72.83632 LOAFF= 72.83632 513=-2.869751 811=-2.869751 523=-17.4182 521=-17.4182 I 533=-16.82234 831=-16.82234 517=-2.869751 518= 0 527=-17.4182 528= 0 I 537=-16.82234 538= 0 515=-2.869751 516=-2.869751 536=-16.82234 AD1=-13.92442 AD2=-14.15462 I AD6=-14.23669 AD7=-13.65837 L13= 54.72048 L11= 54.54215 L23= 47.2401 L21= 47.06176 I L33= 51.75987 L31= 51.58153 L15= 54.62933 L16= 54.22988 L35= 51.66872 L36= 51.26926 L17= 54.8082 L18= 0 I L27= 47.32781 L28= 0 L37= 51.58153 L38= 0 LEQH(COMBINED)= 65.72463 I CNEL= 69.54092 ENTER VALUES FOR D,E,N ? .,-, ltJ.l~ . 'l".6: LOANN= 72.83632 LOAFM= 72.83632 512=-2.869751 514=-2.869751 522=-17.4182 524=-17.4182 532=-16.82234 534=-16.82234 519= 0 5110=-2.869751 529= 0 5210=-17.4182 539= 0 5310=-16.82234 LOANM= 72.83632 525=-17.4182 526=-17.4182 535=-16.82234 AD3=-13.74609 08= 0 L12= 54.31195 L22= 46.83156 L32= 51.35133 L25= 47.14895 L19= 0 L29= 0 L39= 0 AD4=-14.31972 AD9= 0 L14= 54.14685 L24= 46.66646 L34= 51.18623 L26= 46.74949 L110= 54.06732 L210= 46.58693 L310= 51. 1067 ADS=-13.83724 AD10=-14.39926 AF5= 0 I 1LIST 2RUN 3LOAD" 4SAVE" 5CONT 6,"LPT1 7TRON 8TROFF 9KEY 05CREEN I I I I I I I I I I N Ok LIST 100-250 I I 100 REM NOISE REDUCTION DUE TO NOISE BARRIER, FHWA METHOD, ENGLISH UNITS (Ft.) 110 REM C1E=DISTANCE FROM SOURCE TO BARRIER I I 120 REM C2E=DISTANCE FROM BARRIER TO RECEPTOR 130 REM HE=HEIGHT OF BARRIER ABOVE ROADWAY ELEVATION 140 REM S1E=SOURCE HEIGHT ABOVE ROADWAY 150 REM RE=RECEPTOR HEIGHT WITH RESPECT TO ROADWAY 160 REM T=TEMPERATURE IN F 170 REM FR=FREQUENCY IN CPS 211 REM INDEX 1=RIGHT SIDE I 212 REM INDEX 2=LEFT SIDE 213 REM PR=RIGHT ANGLE FROM THE OBSERVER SIDE 214 REM PL=LEFT ANGLE FROM THE OBSERVER SIDE I 220 REM NO=FRESNEL NUMBER, PERPENDICULAR TO SOURCE LINE 230 REM EB=EARTHBERM FACTOR 231 REM RCE=LIMIT HEIGHT OF SOURCE 232 REM LB,LBL=NOISE REDUCTION DUE TO NOISE BARRIER OR EARTH BERM I 235 REM LO=O, NO NOISE REDUCTION DUE TO THE HEIGHT OF SOURCE 236 REM LM=THE MAXIMUM POSSIBLE NOISE REDUCTION 250 PRINT I Ok I I I I I I I I I I I 1LIST 2RUN 3LOAD" 4SAVE" 5CONT 6,"LPT1 7TRON STROFF 9KEY OS CREE I N RUN I I I ENTER VALUES FOR C1E,C2E,HE,S1E,RE,TE,FR ? 450,278,30,2.3,35,68,550 I ENTER VALUES FOR EB ? 1 ENTER VALUES FOR PL,PR ? -90,90 I A1= 137.4196 B1= 84.74806 NO= .1587856 RC= 14.35987 I P0=-1.570796 P3=-.6283185 UO= 7.532272E-08 VSO= 7.533893E-08 ZO= 1.000215 Z3= .6343046 I LBL=-9.485004 Ok· C= 222.1181 P7= .6283186 U3= .8071399 VS3= .5119726 Z7= .6343046 DO= 4.953003E-02 P10= 1.570796 U7= .8071398 VS7= .5119726 Z10= 1. 000215 DFF= 3.141593 U10= 7.532272E-08 VS10= 7.533893E-08 IU= 2.23177 I 1LIST 2RUN 3LOAD" 4SAVE" 5CONT 6,"LPT1 7TRON 8TROFF 9KEY OSCREEN I I I I I I I I I I I I I I I I I I I I I I I I I I I I I Table 10. Comparison of Test Data And Theory Fig. 4, Standard 15 HP No Silencer Fig. 5, Model 90T Without Silencer Distance (Ft) 10 20 30 50 Test (dBA) 85 80 78 74 Theory (dBA) 85 80.7 77.8 73.9 Error (%) 0 0.85 0.25 0.1 100 65 68.3 5.1 Noise Level of Car Wash= 94 -20LOG{(5.5+Distance)f5.5} Distance >= 10 Ft. Ok RUN 1AbleJJ. ENTER VALUES FOR C1E,C2E,HE,S1E,RE,TE,FR I ? 610,118,39.5,2.3,35,68,550 ENTER VALUES FOR EB I I , I I I I I I I I I I I I I I ? 1 ENTER VALUES FOR PL,PR ? -50,60 A1= 186.2734 RC= 14.23296 P0=-.8726646 UO= 1.913615 VSO= .7773875 ZO= .4062403 LBL=-12.67862 Ok B1= 35.99255 P3=-.2967059 U3= 2.846974 VS3= .8719862 Z3= .3062854 C= 222.1181 P7= .4712391 U7= 2.652577 VS7= .8572396 Z7= .3231724 DO= .1477966 NO= .4738133 P10= 1.047198 OFF= 1.919862 U10= 1.488528 VS10= .7050451 Z10= .4736525 IU= .6537443 1LIST 2RUN 3LOAD" 4SAVE" 5CONT 6,"LPT1 7TRON 8TROFF 9KEY OSCREEN I I I I I I I I I I I I I I I I I I I N RUN ENTER VALUES FOR C1E,C2E,HE,S1E,RE,TE,FR ? 106,44,6,4,5,68,550 ENTER VALUES FOR EB ? 0 ENTER VALUES FOR PL,PR ? -25,80 A1= 32.31454 B1= 13.41466 NO= 2.621969E-02 RC= 2.081842 P0=-.4363323 UO= .149308 VSO= .1356124 ZO= .9082729 LBL=-5.352346 Ok P3= .1134464 U3= .1636842 VS3= .1473486 Z3= .9002006 C= 45.72103 P7= .8464848 U7= .1091621 VS7= .1016828 Z7= .9314844 DO= 8.178711E-03 P10= 1.396263 OFF= U10= 2.860736E-02 VS10= .0280705 Z10= .9812335 IU= 1. 832596 1. 689787 1LIST 2RUN 3LOAD" 4SAVE" 5CONT 6,"LPT1 7TRON 8TROFF 9KEY OSCREE I I I I I I I I I I I I I I I I I I I RUN 17Able. IJ • ENTER VALUES FOR C1E,C2E,HE,S1E,RE,TE,FR ? 620,117,40.3,2.3,35,68,550 ENTER VALUES FOR EB ? 1 ENTER VALUES FOR PL,PR ? -25,60 B1= 35.69815 C= 224.8585 DO= .1702423 NO= .5457706 A1= 189.3306 RC= 14.46915 P0=-.4363323 OFF= 1. 48353 UO= 3.107891 VSO= .8889252 ZO= .286022 LBL=-13.20454 Ok P3= 8.726686E-03 P7= .6021386 P10= 1.047198 1LIST 2RUN U3= 3.429047 U7= 2.826075 U10= 1.714589 VS3= .9061368 VS7= .8704952 VS10= .7467197 Z3= .2642532 Z7= .3080227 Z10= .4355095 IU= .4475505 3LOAD" 4SAVE" 5CONT 6,"LPT1 7TRON 8TROFF 9KEY OS CREE ? 0 ENTER VALUES FOR PL,PR ? -25,43 I A1= 44.20019 B1= 8.844454 C= 53.03605 NO= 2.754046E-02 DO= 8.590698E-03 I RC= 1. 95072 P0=-.4363323 P3=-8.028516E-02 DFF= 1.186824 P7= .3944444 P10= .7504916 UO= .1568291 I VSO= .1417789 ZO= .9040344 LBL=-5.448791 I Ok I I I I I I I I I I I 1LIST 2RUN U3= .1724844 U7= .159754 U10= .1265548 VS3= .1544286 VS7= .1441612 VS10= .1165956 Z3= .8953192 Z7= .9023951 Z10= .9213052 IU= 1.070304 3LOAD" 4SAVE" 5CONT 6,"LPT1 7TRON 8TROFF 9KEY OS CREE