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Q.2 A strip footing of size of 2 m in width is designed to be founded...
A plain concrete footing is to be designed for a 400 mm reinforced concrete wall that...
A plain concrete footing is to be designed for a 400 mm reinforced concrete wall that supports a dead load of 187 KN/m including the wall weight and a live load of 79 KN/m. The base of the footing is to be 1.4 m below the final grade. The allowable bearing capacity is 189 Kpa, weight of soil is 15.82 KN/m3, fc’ is 28 Mpa, and concrete to be 23.5 KN/m3. Determine the: width of the plain concrete footing (c)...
EMERGENCY - Geotech plz help A 2 m wide surface supported strip footing will be used...
EMERGENCY - Geotech plz help
A 2 m wide surface supported strip footing will be used to support a masonry bearing wall for a commercial building. The wall loading imposed onto the foundation will be 300 kN per meter of wall length. The soil under the foundation has a saturated unit weight of 20 kN/m”. If the water table is at the surface. what is the effective vertical stress at 2 m below the centre of the foundation when the...
A square footing, 2 m by 2 m is to be constructed 1.22 m below the...
A square footing, 2 m by 2 m is to be constructed 1.22 m below the ground surface, as shown in the figure below. The groundwater table is located 1.82 m below the ground surface. The subsoil consists of a uniform, medium dense, cohesion less soil with the following properties: Unit weight of soil 18.53KN/m; Angle of internal friction 32 Cohesion Determine the foundation soil's allowable bearing capacity, if a factor of safety of 3.0 is used 1.22 m 1.82...
Part 2 A 2 mx 4 m footing is founded at a depth of 0.6 m...
Part 2 A 2 mx 4 m footing is founded at a depth of 0.6 m and supports a vertical load of 400 kN and a horizontal loads of 50 kN and 80 kN. The horizontal loads are acting at 0.9 m above the top of the foundation. The footing is 0.6 m thick and the unit weight of the concrete is 24 kN/m'. GWT 3 m from ground surface. 50 kN 400 KN 80 KN = 4 m B...
Compute the ultimate bearing capacity of a circular footing on a silt, using the following properties:...
Compute the ultimate bearing capacity of a circular footing on a silt, using the following properties: Properties: Soil type: silt Cohesion: 25 kPa Friction Angle: 25 degrees Total unit weight of soil: 18 kN/m3 Expected footing dimensions: 3 m diameter cicular footing for a circurlar tank, bottom of footing at 5 m below ground level Very deep water table Note: - Use both Terzaghi and Meyerhof theories to justify your answer. - If there is anything missing in the problem...
Problem 5-Bearing Capacity of Shallow Foundation (20 pts) For a square footing foundation, the following are...
Problem 5-Bearing Capacity of Shallow Foundation (20 pts) For a square footing foundation, the following are given: B 3.0 m (width), D 1.2 m (depth). Y=20 kN/m3, = 32°, c' = 50 kPa, Use Terzaghi Equation and a factor of safety of 2.5 to determine the allowable bearing capacity and the maximum column load to cause bearing capacity failure. Assume that general shear failure occurs in soil. When Oar C S
please with clear and simple steps as possible, also write answer all questions ....thank you Q1....
please with clear and simple steps as possible, also write
answer all questions ....thank you
Q1. A load of 630 kN/m is carried on a strip footing 3 m wide at a depth of 1.5 m in a stiff clay with saturated unit weight 21 kN/m, the water table being at ground level Determine the factor of safety with respect to general shear failure (a) whe105 kN/m, and φ,-0°, (b) when c' = 10 kNm, and = 28。 13.0, 3.5]...
Q1 (10 marks) You have been asked to examine the bearing capacity of several different rectangular...
Q1 (10 marks) You have been asked to examine the bearing capacity of several different rectangular pad footings. The width of each of the footings is to remain constant wil vary. In order to reduce the number of calculations, you have decided to plot the ultimate bearing capacity against the length of the footing. The properties of the underlying soil profile are given in Table 1.1. The base of the footing is to be located 1 m below ground level...
PLEASE SOLVE İT WİTH GENERAL BEARİNG CAPACİTY EQUATİONS.Thank you ?.İt is so important for me like...
PLEASE SOLVE İT WİTH GENERAL BEARİNG CAPACİTY EQUATİONS.Thank
you ?.İt is so important for me like a midterm exam!
Question 2: For the footing given below, calculate the ultimate bearing capacity (quor qr) and net ultimate bearing capacity (anr) of the footing given below using General Bearing Capacity Equation. General shear failure occurs in the soil and the relevant information are given below. The ground water is at a depth of 3 m below ground surface. It has been observed...
A 3 m square footing carries a vertical downward load of 900 kN. The embedment depth...
A 3 m square footing carries a vertical downward load of 900 kN. The embedment depth is 1 m. The soil beneath this footing has the following properties: y = 18 kN/m”, Ysat = 20 kN/mº, c' = 5 kPa, and o' = 36º. The groundwater table is at a depth of 2 m below the ground surface. Compute factor of safety against bearing capacity failure.
EMERGENCY - Geotech plz help
A 2 m wide surface supported strip footing will be used to support a masonry bearing wall for a commercial building. The wall loading imposed onto the foundation will be 300 kN per meter of wall length. The soil under the foundation has a saturated unit weight of 20 kN/m”. If the water table is at the surface. what is the effective vertical stress at 2 m below the centre of the foundation when the...
A square footing, 2 m by 2 m is to be constructed 1.22 m below the ground surface, as shown in the figure below. The groundwater table is located 1.82 m below the ground surface. The subsoil consists of a uniform, medium dense, cohesion less soil with the following properties: Unit weight of soil 18.53KN/m; Angle of internal friction 32 Cohesion Determine the foundation soil's allowable bearing capacity, if a factor of safety of 3.0 is used 1.22 m 1.82...
Part 2 A 2 mx 4 m footing is founded at a depth of 0.6 m and supports a vertical load of 400 kN and a horizontal loads of 50 kN and 80 kN. The horizontal loads are acting at 0.9 m above the top of the foundation. The footing is 0.6 m thick and the unit weight of the concrete is 24 kN/m'. GWT 3 m from ground surface. 50 kN 400 KN 80 KN = 4 m B...
Problem 5-Bearing Capacity of Shallow Foundation (20 pts) For a square footing foundation, the following are given: B 3.0 m (width), D 1.2 m (depth). Y=20 kN/m3, = 32°, c' = 50 kPa, Use Terzaghi Equation and a factor of safety of 2.5 to determine the allowable bearing capacity and the maximum column load to cause bearing capacity failure. Assume that general shear failure occurs in soil. When Oar C S
please with clear and simple steps as possible, also write
answer all questions ....thank you
Q1. A load of 630 kN/m is carried on a strip footing 3 m wide at a depth of 1.5 m in a stiff clay with saturated unit weight 21 kN/m, the water table being at ground level Determine the factor of safety with respect to general shear failure (a) whe105 kN/m, and φ,-0°, (b) when c' = 10 kNm, and = 28。 13.0, 3.5]...
Q1 (10 marks) You have been asked to examine the bearing capacity of several different rectangular pad footings. The width of each of the footings is to remain constant wil vary. In order to reduce the number of calculations, you have decided to plot the ultimate bearing capacity against the length of the footing. The properties of the underlying soil profile are given in Table 1.1. The base of the footing is to be located 1 m below ground level...
PLEASE SOLVE İT WİTH GENERAL BEARİNG CAPACİTY EQUATİONS.Thank
you ?.İt is so important for me like a midterm exam!
Question 2: For the footing given below, calculate the ultimate bearing capacity (quor qr) and net ultimate bearing capacity (anr) of the footing given below using General Bearing Capacity Equation. General shear failure occurs in the soil and the relevant information are given below. The ground water is at a depth of 3 m below ground surface. It has been observed...
A 3 m square footing carries a vertical downward load of 900 kN. The embedment depth is 1 m. The soil beneath this footing has the following properties: y = 18 kN/m”, Ysat = 20 kN/mº, c' = 5 kPa, and o' = 36º. The groundwater table is at a depth of 2 m below the ground surface. Compute factor of safety against bearing capacity failure.
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