A concrete strip footing with a width of B is founded at the depth of D,...

Assume a rigid strip footing is constructed on a normally consolidated clay layer under a uniformly...

Assume a rigid strip footing is constructed on a normally consolidated clay layer under a uniformly distributed vertical load. The depth of footing is zero and the water table is a few metres below the surface ground. The average shear strength parameters of the clay layer are: • At the beginning of loading: fu = 0, cu = 50 kPa • Long time after loading:, f’ = 25° and c’ = 0 kPa. Will the bearing capacity of this footing...

Assume a rigid strip footing is constructed on a normally consolidated clay layer under a uniformly...

Assume a rigid strip footing is constructed on a normally consolidated clay layer under a uniformly distributed vertical load. The depth of footing is zero and the water table is a few metres below the surface ground. The average shear strength parameters of the clay layer are: At the beginning of loading: fu = 0, cu = 50 kPa Long time after loading:, f’ = 25° and c’ = 0 kPa Will the bearing capacity of this footing change, if...

Determine the ultimate bearing capacity for a strip footing 0.7 m in width buried to a...

Determine the ultimate bearing capacity for a strip footing 0.7 m in width buried to a depth of 0.9 m in clay silt till with a unit weight of 18.8 kN/m3 an internal friction of 25 degrees and a cohesion of 58 kPa. Assume the water table is at the base of the footing. Provide your answer in kPa as a whole number.

2- An isolated square footing 2 m × 2 m is founded at a depth of...

2- An isolated square footing 2 m × 2 m is founded at a depth of 1.5 m below the ground surface, in an extended layer of C- soil. Soil angle of internal friction ()=25o, while C = 20 kN/m2. Density b = 16.5 kN/m3. Determine the net and gross allowable bearing capacity of this soil at foundation level, assuming a factor of safety equals 3.

A wall is supported on a 1.0 m wide strip footing located 1.5 m below the...

A wall is supported on a 1.0 m wide strip footing located 1.5 m below the ground surface. The surrounding soil has a dry unit weight of 17.5 kN/m3, a saturated unit weight of 19.0 kN/m3, cohesion of 8 kPa and angle of internal friction of 26°. Groundwater was located 2m below ground surface. Using a factor of safety of 3, determine the allowable bearing capacity if a) the footing is considered infinitely long, and b) the footing is 8...

Determine the allowable design load for a column resting on a rectangular footing 2 m by...

Determine the allowable design load for a column resting on a rectangular footing 2 m by 9 m, buried to a depth of 2 m in clay soil with a unit weight of 18.5 kN/m3, internal friction of 39 degrees, a drained cohesion of 36 kPa and undrained shear strength of 119 kPa. Assume the short-term condition governs, water table is at the ground surface and use a factor of safety of 3. Provide your answer in kN as a...

in a field test a spread footing was quickly loaded until it failed at 80kN. the...

in a field test a spread footing was quickly loaded until it failed at 80kN. the footing was 40x40cm and at depth of 1m below the clay. the unit weight of the clay is 19kN/m^3. a.) what is the undrained strenfth of the clay? b.) what would you expect the capcity of a 2m wode strip footing founded 1m below soil surface at the same site?

Determine the depth at which a circular footing of (2+0.4Y) m diameter be founded to provide...

Determine the depth at which a circular footing of (2+0.4Y) m diameter be founded to provide a factor of safety of 3, if it has to carry a safe load of (1500+10Y) kN. The foundation soil has a cohesion of 10kN/m2, an angle of internal resistance of (30 +Y)o. The water table is at the ground surface and the unit weight of the soil is 19 kN/m3. Use Terzaghi’s Analysis. y=2

QUESTION 2 A square footing has to be designed using Terzaghi's bearing capacity equation on a...

QUESTION 2 A square footing has to be designed using Terzaghi's bearing capacity equation on a soil with these given parameters: unit weight =115 lb/ft? effective angle of internal friction = 30°, effective cohesion = 500 lb/ft, factor of safety = 3. The bottom of the footing is located at 5 ft below the ground surface. The ground water table is far below the bottom of the footing and has no impact on soil bearing capacity. What is the minimum...

q1) 2 vare tests are carried out at vare dimensions d: 100 mm h: 200 mm...

q1) 2 vare tests are carried out at vare dimensions d: 100 mm h: 200 mm compute undrained shear strenght value and plot depth vertical axis. the torque measured at 5.0 m depth as the residual value is 720 Nm. find the sensitivity. DEPTH(M) TORQUE(Nm) 3 700 5 1100 q 2) 6x6 m d = 3.0 m will be designed in the soil given in q1. total load inclding the weight of the footing 100 00 kN the total thickness...