A smooth unyielding wall retains a dense cohesionless soil with no lateral movements of soil ( at rest condition is assumed). The wall has a height of 2.5 m. The cohesionless soil has a unit weight of 16 kN/m³ and a saturated unit weight of 18.39 kN/m³. Angle of internal friction is 37°. The ground water table is located 1.0 m. below the ground level. smooth unyielding wall 1. Compute the total lateral force acting on the wall. 2. Compute the location of the total lateral force above 1.0m Y=16 kN/m3 water table =37 Yrar 18.39 kN/m3 the bottom of the wall. 2.5m 3. Compute the moment acting on the wall due to this lateral load. 1.5m

Hi guys please help me answer this question with detailed solution. Thank you A small unyielding wall retains a dense cohesionless soil with no lateral movements of soil (at rest conditioned is assumed). the wall has a height of 2.5 m. the cohesionless soil has a unit weight of 16 kN/m3 and a saturated unit weight of 18.39 kn/m3. Angle of internal friction is 37 degrees. The ground water table is located 1.0 m below the ground level. A. Compute the lateral force acting on the wall B. Compute the location of the total lateral force above the bottom of the wall C. Compute the moment acting on the wall due to this lateral load

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A smooth unyielding wall retains a dense cohesionless soil with no lateral movements of soil ( at rest condition is assumed). The wall has a height of 2.5 m. The cohesionless soil has a unit weight of 16 kN/m³ and a saturated unit weight of 18.39 kN/m³. Angle of internal friction is 37°. The ground water table is located 1.0 m. below the ground level. smooth unyielding wall 1. Compute the total lateral force acting on the wall. 2. Compute the location of the total lateral force above 1.0m Y=16 kN/m3 water tabe the bottom of the wall. 2.5m g=37 Year-18.39 kN/m³ 3. Compute the moment acting on the wall due to this lateral load. 1.5m