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0157901son Walker A,�Jates Archi tects 4�b Apri1 11, 1980 page 5 V 7.4. SLOPE STABILITY t Slope, stability study has shown that the site is basically stable; especially near the creek. The existing slope stability should be �r maintained with proper vegetation or riprap to prevent erosion. All the surface water from roof drai.n, side walk, lawn, and baserient should' be collected into a tight line and connected to the storm drain. I 7.5. SETTLEMENT EVALUATION Compliance with the specified design parameterswill yield foundations ! 4> elements and tolerable settlements under the combined total design of live and dead load conditions. 7.6. FLOOC SUPPORT Slabs supported on a grade are feasible providing certain precautions 1" • are undertaken.. All organic.material noted on the site beneath the floor slab area must be removed. This will involve stripping to an average depth of approximately 0.5 feet, as discussed -in the site - 4 preparation section in this report. Subsequent to stripping, all localized disturbed material should be compacted. A free draining is granular base with a minimum of six inches in compacted thickness ;. may then be placed on the compacted subgrade. 7.7. BASEi1ENT WALL PRESSURE_ The foundation walls will be acting as retaining walls below the ground level. If the walls are designed as rigid structures, the be considered to bE in an at -rest condition, outside soil pressure will which exists where the walls are not flexible. The at -rest ! pressures should be considered to be 70 pounds per cubic foot of equi.valent fluid pressure, -plus any additional surcharge loads the ! anticipated within a distance equivalent to the height of wall. structures, the outside soil If the walls are designed as flexible st , ; q pressure will be considered to be in an active condition, which b'1' d t develop i.. exists where the soils against.walls are fully mo i ize o the internal shear friction angle of the backfill. The active pressure should be 35 pounds per cubic foot equivalent fluid pressure, plus any additional surcharge loads anticipated within a distance equivalent to the height of the wall. If the back wall drainage -is not anticipated, or if there is a chance that drainage could fail, then hydrostatic pressures should also be added to the above pressures. 7.3. BASEi.iEiJT DRAINAGE SYSTEil A peripheral drainage systeri-is required around the basement wall