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Home My WebLink AboutCDP 2022-0019; HOM RESIDENCE; LIMITED GEOTECHNICAL INVESTIGATION AND COMPACTION TEST REPORT; 2022-12-16LIMITED GEOTECHNICAL INVESTIGATION AND COMPACTION TEST REPORT HOM PROPERTY 2170 TWAIN AVENUE CARLSBAD, CALIFORNIA PREPARED FOR MR. ROBERT HOM CARLSBAD, CALIFORNIA DECEMBER 16, 2022 PROJECT NO. G2826-32-01 CDP 2022-0019 DWG 543-8A Project No. G2826-32-01 December 16, 2022 Mr. Robert Hom 2170 Twain Avenue Carlsbad, California 92008 Subject: LIMITED GEOTECHNCIAL INVESTIGATION AND COMPACTION TEST REPORT HOM PROPERTY 2170 TWAIN AVENUE CARLSBAD, CALIFORNIA Dear Mr. Hom: In accordance with your request, we have performed a limited geotechnical investigation of the rear yard slope and Mechanically Stabilized Earth (MSE) retaining walls located along the western margin of the subject property. The initial purpose of our study was to evaluate the global stability of the overall slope configuration that was created after retaining walls were constructed on the western slope of the property. Subsequently, we performed random exploratory test pit excavations, in-situ density testing, and laboratory testing within the reinforced zone of the accessible MSE walls. The subject property is Lot No. 68 of Carlsbad Tract 97-16A (Kelly Core) and was graded in 2003. Geocon Incorporated provided geotechnical services during project development. The applicable geotechnical report is entitled Final Report of Testing and Observation Services During Site Grading, Kelly Core; CT97-16A, Single Family Lot Nos. 1 through 76 and 84 through 155, Carlsbad, California, prepared by Geocon Incorporated, dated March 3, 2003. A review of the report indicates that the subject property is a cut lot underlain by natural Terrace Deposits. The soils consist of fine to medium grained silty sand. The slope excavation along the west margin of the lot was originally graded at a ratio of 2:1 (horizontal:vertical) with a 5-foot-high retaining wall at the base. The total slope height is approximately 25 feet. In 2021, the slope was modified by the construction of a series of stepped Mechanically Stabilized Earth (MSE) retaining walls to create level terraces. A stairway and observation deck were also constructed as part of the rear yard improvements. GEOCON INCORPORATED G E OT E CHN I CAL ■E NV I RONMENTA L ■ MA T ER I A L S 6960 Flanders Drive ■ Son Diego, California 92121-297 4 ■ Telephone 858.558.6900 ■ Fax 858.558.6159 Geocon Project No. G2826-32-01 - 2 - December 16, 2022 GLOBAL SLOPE STABILITY ANALYSIS A topographic survey of the existing slope configuration was prepared by O’Day Consultants. We generated four cross-sections based on the survey for the purpose of evaluating global slope stability. The locations of Cross-Sections A-A’ through D-D’ are shown on the Geologic Map, Figure 1. The cross sections and output files that show the calculated factor of safety considering static and pseudo- static conditions for each section is presented in Appendix A, Figures A-1 through A-9. The computer program SLOPE/W distributed by Geo-Slope International was utilized to perform the slope stability analyses. This program uses conventional slope stability equations and a two-dimensional limit-equilibrium method to calculate the factor of safety against deep-seated failure. For our analysis, Spencer’s Method was used. Spencer’s Method satisfies both moment and force equilibrium. The soil strength parameters for the Terrace Deposits used in our analysis were derived from laboratory testing during the site investigation and our studies performed nearby. Based on the results of the global slope stability analyses, a minimum static and pseudo-static factor of safety of at least 1.5 and 1.1, respectively, is present along each cross section analyzed. With respect to the potential for soil erosion, the hillside has been generally terraced with walls and flat planter surfaces. As a result, the exposure of potentially erosive soils has been reduced compared to the originally graded slope. Therefore, we conclude that the conditions are more favorable now compared to the 2:1 graded slope with respect to surficial soil erosion. As previously noted, our evaluation did not consider the stability of the MSE retaining walls and their zone of influence. We have no opinion in that regard. With that said, it is our opinion that the slope is grossly stable with respect to the potential for deep-seated failure. FIELD INVESTIGATION The scope of our services also consisted of excavating four exploratory test pits behind the existing MSE retaining walls at random locations, observing the location of the geogrid reinforcement, and performing in-place density tests to evaluate the relative compaction of the soil within the reinforced zone. The exploratory trench locations are shown on Figure 1. Figure 2 presents the logs and a conjectured geologic cross section based on the trench information and our estimated subsurface conditions. It is not known if the geologic or geotechnical conditions encountered within the trenches, or our conjectured interpretation is representative of the entire wall system. In addition, we have no knowledge of how the foundation zones were prepared. We performed in-place density testing using a nuclear gauge in substantial conformance with ASTM D 6938. Tests were taken at approximately one-foot vertical intervals within the backfill materials. The in- place density tests indicate that the soil at the locations tested possess a relative compaction ranging from Geocon Project No. G2826-32-01 - 3 -December 16, 2022 approximately 83 to 86 percent of the laboratory maximum dry density. The results of the field tests are summarized in Table I. We also performed laboratory maximum dry density and optimum moisture content tests (ASTM D 1557) and direct shear strength tests (ASTM D 3080) on representative soil samples for use in our analysis. Shear strength tests were conducted on samples remolded to 85 percent and 90 percent relative compaction. The results of our laboratory tests are summarized in Tables II through IV. The soils encountered during our study consisted of silty sand derived from Very Old Paralic Deposits (i.e. Terrace Deposits, formerly identified as Lindavista Formation). The recommended shear strength properties for the retained and foundation zones (phi angle of 33-degrees) were provided based on previous laboratory testing and our experience in the area. Specifically, we considered two shear strength test results on undisturbed Terrace Deposits from our report entitled Soils Investigation for Cablevision Communication Facilities, Carlsbad, California, dated March 13, 1979. This site is located approximately 1,000 feet south of the subject property. These test results are also summarized on Table IV. A 30-degree phi angle is recommended for the reinforced zone to consider the lower relative compaction of the soils identified during our study. CONCLUSIONS 1.Based on the results of our analyses, the global stability of the slope at the rear of the subject property exceeds a static and pseudo-static factor of safety of 1.5 and 1.1, respectively, against deep-seated failure. 2.Trench excavations within the reinforced zone of the MSE retaining walls, at four random locations, indicate that the geogrid reinforcement layers are generally spaced twelve inches apart and extend approximately four feet behind the face of the wall. 3.In-place density tests performed in soil within the reinforced zone of the MSE wall resulted in an average relative compaction of approximately 85 percent. 4.Laboratory shear strength testing on a soil sample from the reinforced zone, remolded to 85 percent relative compaction, yielded a friction angle of approximately 30 degrees with zero cohesion. We understand that a friction angle of 30 degrees was used in the MSE wall design engineer’s calculations. 5.A photograph taken during wall construction indicates that a backdrain outlet pipe was placed at the base of the lowest wall. During the field investigation, a 4-inch diameter, PVC subdrain pipe was slightly visible in front of the lower wall. We have no opinion regarding whether a complete backdrain system was constructed. 6.We understand that the internal wall stability is being analyzed by M3 Civil Engineering, Incorporated to facilitate a retroactive permit for the existing wall system and the information contained herein will be used in this analysis. In this regard, Geocon has no opinion regarding the internal MSE wall stability or soil placed within the retained zone. 7.It is our opinion that construction of the MSE retaining walls do not impact improvements on the adjacent properties. Geocon Project No. G2826-32-01 - 4 - December 16, 2022 If there are any questions regarding this report, or if we may be of further service, please contact the undersigned at your convenience. Very truly yours, GEOCON INCORPORATED Trevor E. Myers RCE 63773 David B. Evans CEG 1860 TEM:DBE:am (e-mail) Addressee AA' B'B CC' D'D ? ? ? ? ? ? ? Qv o p 10 Qv o p 10 Qp f Qp f T- 1 T- 2 T- 3 T- 4 69 6 0 F L A N D E R S D R I V E - S A N D I E G O , C A L I F O R N I A 9 2 1 2 1 - 2 9 7 4 PH O N E 8 5 8 5 5 8 - 6 9 0 0 - F A X 8 5 8 5 5 8 - 6 1 5 9 SH E E T O F PR O J E C T N O . 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L O C A T I O N O F G E O L O G I C C O N T A C T ( Q u e r i e d W h e r e U n c e r t a i n ) i Q g l::rj ~o ~Q ■1~0 ~z • ~ c::, <.n ·- "' Q r;;~ -11' <.n -• c::, ~ ~ ~ -<.n ,_., c::, r~ ) ~I CON/PAVERS 325.00', 20101 CON/PAVERS CON/PAVERS BTM STP 325.1 8• 20102 BG 3L._-.,,. 20296 I ::i:: ~ -0 vi 0 s;i R BG 3~ 20298 200~ 1/) ! I~ 11111 Pp % 'Cq, ,0"6 - J' :\," ~(;, ~ FND ND LS 527E3a 328.Sc;- 2006 1 1111 &co, ~!' - -4'" ,-\,~ ~~\,"' " \\~' ,(<\::->"'"' ~ CON PVRS/BW 20237 ,6·11 CON 11111 ,,·6 - :/ff..,,<, 4/i<>'?ill'l' .9.!) &en ':,N'c Yp'§°'f' <rr -.,c;;, "'""' ~',," ·~:\,c,,-, ,62 ?· .-0, ~""'" ii> ,,c;;, ~ ,cc; g. d, 8l * -~&9 • '.f'· q,. -0, /}!' ) c.. t; {'~<iJ %--7' 6,, · "'~ II t-1/ ,"' ('" j ¥:-, I/ ,Jo rn-11, Ol"O,t ~<'- "b~!'I ~ I!, ~ ~i l'v, ftr'i;<;_ EL E V A T I O N ( M S L ) EL E V A T I O N ( M S L ) DISTANCE (FEET) SCALE: 1" = 5' (Vert. = Horiz.) GEOLOGIC CROSS-SECTION B-B' 315 320 325 330 335 340 345 350 355 315 320 325 330 335 340 345 350 355 0 5 10 15 20 25 30 35 40 45 50 55 60 EL E V A T I O N ( M S L ) EL E V A T I O N ( M S L ) DISTANCE (FEET) SCALE: 1" = 5' (Vert. = Horiz.) GEOLOGIC CROSS-SECTION D-D' 315 320 325 330 335 340 345 350 355 315 320 325 330 335 340 345 350 355 0 5 10 15 20 25 30 35 40 45 50 55 60 B B' D D' EXISTING GRADE EXISTING GRADE ? ? ? ? ? ? ? Qvop10 Qvop10 Qvop10 Qpf Qpf Qpf T-2 (Projected 8' south) T-3 (Projected 23' south) T-4 (Projected 25' south) ? ? ? ? ? ? Qvop10 Qvop10 Qvop10 Qpf Qpf T-1 (Projected 10' north) POOL 4' 4'Qpf Qpf MSE RETAINING WALL MIRAFI 2XT GEOGRID 4' 4' MSE RETAINING WALL Qpf Qpf 4' 4' MSE RETAINING WALL Qpf Qvop10MIRAFI 2XT GEOGRID A 4' 4' Qpf Qvop10MIRAFI 2XT GEOGRID MSE RETAINING WALL TRENCH T-1 APPROX. SCALE 1" = 2' MIRAFI 2XT GEOGRID TRENCH T-2 APPROX. SCALE 1" = 2' TRENCH T-3 APPROX. SCALE 1" = 2' LOCATION OF SAMPLE #1 TRENCH T-4 APPROX. SCALE 1" = 2' B LOCATION OF SAMPLE #2 Plotted:12/16/2022 11:10AM | By:RUBEN AGUILAR | File Location:Y:\PROJECTS\G2826-32-01 Hom Property\SOURCE\SECTION\G2826-32-01 Profiles-TrenchLog.dwg 6960 FLANDERS DRIVE - SAN DIEGO, CALIFORNIA 92121 - 2974 PHONE 858 558-6900 - FAX 858 558-6159 SHEET OF PROJECT NO. SCALE DATE FIGURE GEOTECHNICAL ENVIRONMENTAL MATERIALS 1" = GEOLOGIC CROSS - SEC8IONS HOM PROPERTY CARLSBAD, CALIFORNIA 5'12 - 16 - 2022 G2826 - 32 - 01 1 1 2 ? GEOCON LEGEND ........PREVIOUSLY PLACED FILL ........APPROX. LOCATION OF GEOGRID Qpf ........VERY OLD PARALIC DEPOSITSQvop10 ........APPROX. LOCATION OF GEOLOGIC CONTACT (Queried Where Uncertain) Project Name:Project No.: Pre. No. Re. 1 05/02/22 Test Pit 2 -1 1 0 125.9 10.2 106.3 15.1 84 90 2 05/02/22 Test Pit 1 -1 1 0 125.9 10.2 107.2 11.5 85 90 3 05/02/22 Test Pit 2 -2 1 0 125.9 10.2 105.9 17.3 84 90 4 05/02/22 Test Pit 1 -2 1 0 125.9 10.2 104.9 17.6 83 90 5 05/02/22 Test Pit 1 -3 1 0 125.9 10.2 106.0 16.2 84 90 6 05/02/22 Test Pit 2 -3 1 0 125.9 10.2 107.4 18.5 85 90 7 05/02/22 Test Pit 1 -4 1 0 125.9 10.2 107.1 17.8 85 90 8 05/02/22 Test Pit 2 -4 1 0 125.9 10.2 106.1 18.2 84 90 9 05/03/22 Test Pit 3 -1 1 0 125.9 10.2 107.4 11.5 85 90 10 05/03/22 Test Pit 4 -1 1 0 125.9 10.2 107.5 17.0 85 90 11 05/03/22 Test Pit 3 -2 1 0 125.9 10.2 105.0 16.4 83 90 12 05/03/22 Test Pit 4 -2 1 0 125.9 10.2 108.1 15.5 86 90 13 05/03/22 Test Pit 3 -3 1 0 125.9 10.2 106.2 17.7 84 90 14 05/03/22 Test Pit 4 -3 1 0 125.9 10.2 107.3 17.2 85 90 15 05/03/22 Test Pit 3 -4 1 0 125.9 10.2 105.8 18.1 84 90 16 05/03/22 Test Pit 4 -4 1 0 125.9 10.2 107.6 17.5 85 90 Test No. Date (MM/D D/YY) Curve No. >¾" Rock (%) TABLE I SUMMARY OF FIELD DENSITY TEST RESULTS 2170 Twain Avenue, Carlsbad, CA G2826-32-01 Location Max. Dry Density (pcf) Opt. Moist Content (%) Field Dry Density (pcf) Field Moisture Content (%) Relative Compaction (%) Required Relative Compaction (%) Elev. or Depth (feet) 0G EOCON Geocon Project No. G2826-32-01 December 16, 2022 TABLE II SUMMARY OF LABORATORY MAXIMUM DRY DENSITY AND OPTIMUM MOISTURE CONTENT TEST RESULTS ASTM D 1557 Proctor Curve No. Description Maximum Dry Density (pcf) Optimum Moisture Content (%) 1 Reddish-brown, Silty, fine to coarse SAND 125.9 10.2 2 Reddish-brown, Silty fine SAND 129.4 10.0 TABLE III SUMMARY OF RECENT LABORATORY DIRECT SHEAR TEST RESULTS ASTM D 3080 HOM PROPERTY (G2826-32-01) Sample No. Geologic Unit Symbol (USCS Soil Type) Dry Density (pcf) Moisture Content (%) Peak [Ultimate] Cohesion (psf) Peak [Ultimate] Angle of Shear Resistance (degrees) 1 * Qpf (SM) 113.7 10.2 350 [300] 30 [30] 2 ** Qpf (SM) 110.9 9.2 0 [0] 30 [30] * Sample remolded to 90 percent relative compaction at near optimum moisture content. **Sample remolded to 85 percent relative compaction at near optimum moisture content. TABLE IV SUMMARY OF PREVIOUS LABORATORY DIRECT SHEAR TEST RESULTS ASTM D 3080 CABLEVISION COMMUNICATION FACILITIES (D-1756-J01) Sample No. Geologic Unit Symbol (USCS Soil Type) Dry Density (pcf) Moisture Content (%) Peak [Ultimate] Cohesion (psf) Peak [Ultimate] Angle of Shear Resistance (degrees) B1-1 Qvop (SM) 107.1 6.0 200 34 B2-3 Qvop (SM) 109.2 6.2 160 38 SAMPLE NO.:GEOLOGIC UNIT: SAMPLE DEPTH (FT):NATURAL/REMOLDED: 1 K 2 K 4 K AVERAGE 890 2030 4300 -- 10.3 10.0 10.2 10.2 113.6 113.5 113.9 113.7 1 K 2 K 4 K AVERAGE 15.5 15.8 15.3 15.5 833 1657 2897 -- 795 1610 2802 -- 350 30 300 30 COHESION, C (PSF) DRY DENSITY (PCF): AFTER TEST CONDITIONS #1 G2826-32-01 HOM PROPERTY COHESION, C (PSF) FRICTION ANGLE (DEGREES) DIRECT SHEAR - ASTM D 3080 PROJECT NO.: FRICTION ANGLE (DEGREES) NORMAL STRESS TEST LOAD ACTUAL NORMAL STRESS (PSF): WATER CONTENT (%): ULTIMATE RESULTS PEAK Qpf NORMAL STRESS TEST LOAD WATER CONTENT (%): PEAK SHEAR STRESS (PSF): ULT.-E.O.T. SHEAR STRESS (PSF): INITIAL CONDITIONS R 0 500 1000 1500 2000 2500 3000 3500 0.000 0.050 0.100 0.150 0.200 0.250 0.300 SH E A R S T R E S S ( P S F ) HORIZONTAL DEFORMATION (IN) 1 K 2 K 4 K 1 K PEAK 2 K PEAK 4 K PEAK 1 K ULTIMATE 2 K ULTIMATE 4 K ULTIMATE 4 K 2 K 1K 0 1000 2000 3000 4000 5000 6000 7000 0 1000 2000 3000 4000 5000 6000 SH E A R S T R E S S ( P S F ) NORMAL STRESS (PSF)A X A X GEOCON INCORPORATED GEOTECHNICAL CONSULT ANTS A X 6960 FLANDERS DRIVE • SAN DIEGO, CALIFORNIA 92121 • 297 .4 PHONE 858 558-6900 • FAX 858 558-6159 ~ /~ -------PEAK ULTIMATE !#' / ./ ;K V SAMPLE NO.:GEOLOGIC UNIT: SAMPLE DEPTH (FT):NATURAL/REMOLDED: 1 K 2 K 4 K AVERAGE 890 2030 4300 -- 9.2 9.2 9.1 9.2 110.8 110.8 110.9 110.9 1 K 2 K 4 K AVERAGE 15.9 15.7 15.8 15.8 824 1534 2670 -- 824 1534 2660 -- 0 30 0 30 COHESION, C (PSF) DRY DENSITY (PCF): AFTER TEST CONDITIONS #2 G2826-32-01 HOM RESIDENCE COHESION, C (PSF) FRICTION ANGLE (DEGREES) DIRECT SHEAR - ASTM D 3080 PROJECT NO.: FRICTION ANGLE (DEGREES) NORMAL STRESS TEST LOAD ACTUAL NORMAL STRESS (PSF): WATER CONTENT (%): ULTIMATE RESULTS PEAK Qcf NORMAL STRESS TEST LOAD WATER CONTENT (%): PEAK SHEAR STRESS (PSF): ULT.-E.O.T. SHEAR STRESS (PSF): INITIAL CONDITIONS R 0 500 1000 1500 2000 2500 3000 0.000 0.050 0.100 0.150 0.200 0.250 0.300 SH E A R S T R E S S ( P S F ) HORIZONTAL DEFORMATION (IN) 1 K 2 K 4 K 1 K PEAK 2 K PEAK 4 K PEAK 1 K ULTIMATE 2 K ULTIMATE 4 K ULTIMATE 4 K 2 K 1K 0 1000 2000 3000 4000 5000 6000 7000 0 1000 2000 3000 4000 5000 6000 SH E A R S T R E S S ( P S F ) NORMAL STRESS (PSF)A X A X GEOCON INCORPORATED GEOTECHNICAL CONSULT ANTS A X 6960 FLANDERS DRIVE • SAN DIEGO, CALIFORNIA 92121 • 297 .4 PHONE 858 558-6900 • FAX 858 558-6159 1! / -------PEAK ULTIMATE / / y ' ~v / ,J ~ APPENDIX A APPENDIX A SLOPE STABILITY ANALYSES FOR HOM PROPERTY 2170 TWAIN AVENUE CARLSBAD, CALIFORNIA PROJECT NO. G2826-32-01 2.5 Distance (ft) -10-8-6-4-2024681012141618202224262830323436384042444648505254565860 320 322 324 326 328 330 332 334 336 338 340 342 344 346 348 350 352 354 El e v a t i o n ( M S L ) 320 322 324 326 328 330 332 334 336 338 340 342 344 346 348 350 352 354A A' Hom Property Project No. G2826-32-01 Section A-A' Name: AAc0.gsz Date: 11/18/2021 Time: 10:21:13 AM Color Name Unit Weight (pcf) Cohesion' (psf) Phi' (°) Qt - Terrace Deposits 125 300 30 Existing Condition Static Analysis Qt Figure A-1 I I .- 1.8 Distance (ft) -10-8-6-4-2024681012141618202224262830323436384042444648505254565860 320 322 324 326 328 330 332 334 336 338 340 342 344 346 348 350 352 354 El e v a t i o n ( M S L ) 320 322 324 326 328 330 332 334 336 338 340 342 344 346 348 350 352 354A A' Hom Property Project No. G2826-32-01 Section A-A' Name: AAc0s.gsz Date: 12/14/2022 Time: 12:18:33 PM Color Name Unit Weight (pcf) Cohesion' (psf) Phi' (°) Qt - Terrace Deposits 125 300 30 Existing Condition Seismic Analysis keq = 0.15g Qt Figure A-2 I I .- 2.4 Distance (ft) -10-8-6-4-2024681012141618202224262830323436384042444648505254565860 320 322 324 326 328 330 332 334 336 338 340 342 344 346 348 350 352 354 El e v a t i o n ( M S L ) 320 322 324 326 328 330 332 334 336 338 340 342 344 346 348 350 352 354B B' Hom Property Project No. G2826-32-01 Section B-B' Name: BBc0.gsz Date: 11/18/2021 Time: 10:24:12 AM Color Name Unit Weight (pcf) Cohesion' (psf) Phi' (°) Qt - Terrace Deposits 125 300 30 Existing Condition Static Analysis Qt Figure A-3 I I .- 1.7 Distance (ft) -10-8-6-4-2024681012141618202224262830323436384042444648505254565860 320 322 324 326 328 330 332 334 336 338 340 342 344 346 348 350 352 354 El e v a t i o n ( M S L ) 320 322 324 326 328 330 332 334 336 338 340 342 344 346 348 350 352 354B B' Hom Property Project No. G2826-32-01 Section B-B' Name: BBc0s.gsz Date: 12/14/2022 Time: 12:25:22 PM Color Name Unit Weight (pcf) Cohesion' (psf) Phi' (°) Qt - Terrace Deposits 125 300 30 Existing Condition Seismic Analysis keq = 0.15g Qt Figure A-4 I I .- 2.3 Distance (ft) -10-8-6-4-2024681012141618202224262830323436384042444648505254565860 320 322 324 326 328 330 332 334 336 338 340 342 344 346 348 350 352 354 El e v a t i o n ( M S L ) 320 322 324 326 328 330 332 334 336 338 340 342 344 346 348 350 352 354C C' Hom Property Project No. G2826-32-01 Section A-A' Name: CCc0.gsz Date: 11/18/2021 Time: 10:25:26 AM Color Name Unit Weight (pcf) Cohesion' (psf) Phi' (°) Qt - Terrace Deposits 125 300 30 Existing Condition Static Analysis Qt Figure A-5 I I .- 1.7 Distance (ft) -10-8-6-4-2024681012141618202224262830323436384042444648505254565860 320 322 324 326 328 330 332 334 336 338 340 342 344 346 348 350 352 354 El e v a t i o n ( M S L ) 320 322 324 326 328 330 332 334 336 338 340 342 344 346 348 350 352 354C C' Hom Property Project No. G2826-32-01 Section A-A' Name: CCc0s.gsz Date: 12/14/2022 Time: 12:27:31 PM Color Name Unit Weight (pcf) Cohesion' (psf) Phi' (°) Qt - Terrace Deposits 125 300 30 Existing Condition Seismic Analysis keq = 0.15g Qt Figure A-6 I I .- 1.9 Distance (ft) -10-8-6-4-2024681012141618202224262830323436384042444648505254565860 314 316 318 320 322 324 326 328 330 332 334 336 338 340 342 344 346 348 350 352 354 El e v a t i o n ( M S L ) 314 316 318 320 322 324 326 328 330 332 334 336 338 340 342 344 346 348 350 352 354D D' Hom Property Project No. G2826-32-01 Section D-D' Name: DDc0.gsz Date: 11/18/2021 Time: 10:27:11 AM Color Name Unit Weight (pcf) Cohesion' (psf) Phi' (°) Qt - Terrace Deposits 125 300 30 Existing Condition Static Analysis Qt Pool Figure A-7 • 1.4 Distance (ft) -10-8-6-4-2024681012141618202224262830323436384042444648505254565860 314 316 318 320 322 324 326 328 330 332 334 336 338 340 342 344 346 348 350 352 354 El e v a t i o n ( M S L ) 314 316 318 320 322 324 326 328 330 332 334 336 338 340 342 344 346 348 350 352 354D D' Hom Property Project No. G2826-32-01 Section D-D' Name: DDc0s.gsz Date: 12/14/2022 Time: 12:30:40 PM Color Name Unit Weight (pcf) Cohesion' (psf) Phi' (°) Qt - Terrace Deposits 125 300 30 Existing Condition Seismic Analysis keq = 0.15g Qt Pool Figure A-8 •