A 4-m by 4-m square area carrying a uniform load of 250 ???2 is applied to...

A 1.5 m square 0.4 thick footing supports a column load of 350 kN. The underlying...

A 1.5 m square 0.4 thick footing supports a column load of 350 kN. The underlying soil has a unit weight of 18 kN/m3 and the ground water table is 2 m below the ground surface. Compute the change is vertical stress and final vertical stress beneath the corner of this footing at a depth of 5 m using the 2:1 and Boussinesq methods. The footing is placed on the ground surface. Include selfweight of the footing. Discuss the differences...

A proposed square footing carrying a total load of 2,100 kN is to be constructed on...

A proposed square footing carrying a total load of 2,100 kN is to be constructed on a uniform dense clean gravel. The gravel’s dry unit weight is 20.7 kN/m3, and its angle of internal friction is 34°. The depth of the footing is 1.7 m below the ground surface. Groundwater was not detected during the drilling program. Determine the minimum dimensions of this proposed footing, using a factor of safety of 3 and an assumed footing thickness of 0.5 m.

A soil with a unit weight of 20 kN/m3 is loaded on the ground surface by...

A soil with a unit weight of 20 kN/m3 is loaded on the ground surface by a uniformly distributed load of 500 kN/m2 over a circular area 4 m diameter (see Fig. below). Calculate the vertical stress at depth 5 m below the center and edge of the circular area. Assume the Bousinesq conditions apply. Assume the Westergaard conditions apply. Sudject: Geotechnical Analysis Please make numbers readable

Part A A square foundation has a width of 2.0 m. The soil has a friction...

Part A A square foundation has a width of 2.0 m. The soil has a friction angle of φ' = 27 and c' = 15 kN/m2. The unit weight of the soil γ = 18 kN/m3. Determine the allowable gross load (kN) on the foundation with a factor of safety of of 3. Assume that the depth of the foundation is 2.0 m and that general shear failure occurs in the soil. Give only the numeric answer (no unit). Part...

Determine the effective stress increase in the soil at a depth of 4 m below the...

Determine the effective stress increase in the soil at a depth of 4 m below the footing of area 3 x 5 m2 under an axial load of 4500 kN. Also determine the increase in the stress due to a drop of the water table from originally 1 m below the footing to 5 m below the footing bottom. Please help me with this question with graph and calculation details, thanks.

The figure below shows three parallel strips foundation with 2.4 m, 1.8 m, and 2.8 m...

The figure below shows three parallel strips foundation with 2.4 m, 1.8 m, and 2.8 m wide and 4.6 m apart from center founded at 1.4 m depth transmit contact pressure of 270 kPa, 190 kPa, and 230 kPa respectively. Using the table of influence factor, calculate the intensity of vertical stresses due to combined load beneath the center of each footing (at points A, B, and C) at depth of 5.0 m below the ground surface. (Ans: 121.25 kPa;...

You should use excel functions and capabilities to solve the problem. Inputs and outputs should be...

You should use excel functions and capabilities to solve the problem. Inputs and outputs should be clear using different colours. There is no mark for copying and pasting the solution. please provide step by step formulas to conpute in excel Q3 A rigid strip footing with a width of B is constructed above the ground on a clay deposit, overlying bedrock. The depth of clay layer is H and the water level is at the natural ground surface. Before construction...

Find the moment of inertia of a uniform square lamina of side a and mass m...

Find the moment of inertia of a uniform square lamina of side a and mass m about a diagonal. Find the angular momentum about the origin of the square when it is rotating with angular speed ω about (a) the x-axis and (b) the diagonal through the origin. Find the kinetic energy in the two cases above Find the principal moment of inertia of a square plate about a corner. Find the principal axis associated with each principal moment of...

Solve for me the question below: A 2 m x 4 m flexible loaded area shown...

Solve for me the question below: A 2 m x 4 m flexible loaded area shown in the figure below. Applies a uniform pressure of 150 kN/m2 to underlying silty sand. Estimate the elastic settlement below the foundation. Check problem 9.6 of the 9th edition. Thanks

Please answer all four questions. Thank you! 1) A tensile load of 71,000 pounds is applied...

Please answer all four questions. Thank you! 1) A tensile load of 71,000 pounds is applied to a square steel bar that is 0.75 inches in cross section dimension and has a gage length of 6.5 inches. Under this load what is the longitudinal elongation? 2) Write the 2 equations for steel corrosion as its iron changes from that of fresh steel to fully corroded ferric oxide. 3) A square cross-section piece of metal is put under tensile stress. The...