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3-1 Calculate the effective stress at points c and d in the example problem of Fig....
Question 3: Calculate the total stress, effective stress, and pore water pressure at points A and...
Question 3: Calculate the total stress, effective stress, and pore water pressure at points A and B for the soil profile shown in Figure 2.0 below. Assume specifie gravity value as 2.70, void ratio as 0.7, degree of saturation as 0.85, and water content as 28% Point Load = 500 kN 2.0m GWT 4.5m OA 5.0m .B Figure 2.0 Question 4: If the groundwater in the figure 2.0 were (a) to drop 2m below the surface, (b) to rise 2...
P3/4/5 Problem 3 Plot the variation of total stress, pore water pressure, and effective stress with...
P3/4/5
Problem 3 Plot the variation of total stress, pore water pressure, and effective stress with depth for the sand and clay layers shown in a figure below. Given: Hi-6m and H-4m. Dry sand 0.65 -2.66 Groand water table -0.9 G,-2.73 Problem 4 Refer to a figure below in which there is water seepage. Gven: H-1.5 t and H- 4.5 t h-1.75 f, and 122 Ib/t a. Calculate the total stress, pore watcr pressure, and effective stress at C(z-2 n)...
use the figure below to calculate the effective stress at point a 3. Use the figure...
use the figure below to calculate the effective stress at
point a
3. Use the figure below to calculate the effective stress at Point A (8 pts.) Clay lb 7 ft γ=95R ft3 Sand lb ft 3 3 ft lb ft3 3 ft density of water (62.4 pol)' depth stress density depth and pore pressure-
2. a) Try to find respectively the pressure head, elevation head at location A, B and...
2. a) Try to find respectively the pressure head, elevation head at location A, B and C in arrangements as shown in Figure 1-a & -b under seepage (water exits at datum level). b) How much water could be expected from an arrangement Figure 1-b in 30 minutes if 0.5 litre of water was collected from Figure 1-a arrangement in one hour (assume the same type of soil in both arrangement). 0.4m |-0.5 mm|-0.5 -0.50 -0.5 B 1 1 m...
Solve the following problems. 1. Calculate initial stresses (total stress, porewater pressure, effective stress) and Induced...
Solve the following problems. 1. Calculate initial stresses (total stress, porewater pressure, effective stress) and Induced stresses at points A, B, and C due to loading shown in the Figure below. (25 points) 1000 psf 4 feet с. 1.5 ft 6 feet A 1.0 ft B 1000 psf Soil I 5.0 ft e = 0.56, G, = 2.65 Soil II e = 0.53, G, = 2.65 4.0 ft 8.0 ft C •A
Water flows in a pipe as shown in Figure Q3. At section 1, height to the...
Water flows in a pipe as shown in Figure Q3. At section 1, height to the centre line of pipe in relation to some datum is Zi (=3m). At section 2, the respective height is Z2 = 5m) as shown. The pipe diameters in section 1 and 2 are 500mm and 440mm respectively. Water velocity at section 1 is 5.6 m/s and the pressure is 45 kPa. Assuming ideal flow conditions and taking water density as 1000 kg/m. 1. Calculate...
Problem 1 (6 Points) Refer to the soil profile in Fig. 1. Plot separate diagrams for...
Problem 1 (6 Points) Refer to the soil profile in Fig. 1. Plot separate diagrams for total stress (ov), water pressure (us) and effective stress (o'v) Ground Surface Ymoist-110 pcf Silty Sand 10 ft watery Fig. 1 y=112.4 pcf Clay 20 ft
Calculate b,c, and d 1. The following data were collected at a nest of piezometers (several...
Calculate b,c, and d
1. The following data were collected at a nest of piezometers (several piezometers of different depths located within 1 m of each other). Well 1 Elevation at surface (m.a.s Depth to piezometer (m Well 2 Well 3 375 27 375 17 Depth to static water level (m) 2 *measured from surface elevation down to water table Answer the following questions: Draw a picture of the well nest with the elevation head, pressure head and water table...
A soil profile consisting of 3 layers is shown in Fig. 3. Answer the following V....
A soil profile consisting of 3 layers is shown in Fig. 3. Answer the following V. questions: (20 pts) Layer 1 HI-5 m, e-0.7, Gs 2.69 H2-8 m, e=0.55, Gs 2.70 H3 3 m, w-38%; e=1.2 H Groundwater Layer 2 Layer 3 Dry sand Sand Clay Rock Fig. 3 u, and o at points A, B, C and D. and plot Calculate the values of o 1. the variations of o ,u, and o with depth. (10 pts) Calculate the...
The figure below shows the soil profile conditions below a 5-m deep pond. Water is seeping directly downward und...
The figure below shows the soil profile conditions below a 5-m deep pond. Water is seeping directly downward under steady-state conditions through the clay layer into underlying gravel. Assume the elevation datum at the top of the gravel layer and that the hydrostatic ground water table is also found in the top of the gravel and its position does not change with time or amount of flow. For these flow conditions, calculate the following: a. b. c. d. e. f....
Question 3: Calculate the total stress, effective stress, and pore water pressure at points A and B for the soil profile shown in Figure 2.0 below. Assume specifie gravity value as 2.70, void ratio as 0.7, degree of saturation as 0.85, and water content as 28% Point Load = 500 kN 2.0m GWT 4.5m OA 5.0m .B Figure 2.0 Question 4: If the groundwater in the figure 2.0 were (a) to drop 2m below the surface, (b) to rise 2...
P3/4/5
Problem 3 Plot the variation of total stress, pore water pressure, and effective stress with depth for the sand and clay layers shown in a figure below. Given: Hi-6m and H-4m. Dry sand 0.65 -2.66 Groand water table -0.9 G,-2.73 Problem 4 Refer to a figure below in which there is water seepage. Gven: H-1.5 t and H- 4.5 t h-1.75 f, and 122 Ib/t a. Calculate the total stress, pore watcr pressure, and effective stress at C(z-2 n)...
use the figure below to calculate the effective stress at
point a
3. Use the figure below to calculate the effective stress at Point A (8 pts.) Clay lb 7 ft γ=95R ft3 Sand lb ft 3 3 ft lb ft3 3 ft density of water (62.4 pol)' depth stress density depth and pore pressure-
2. a) Try to find respectively the pressure head, elevation head at location A, B and C in arrangements as shown in Figure 1-a & -b under seepage (water exits at datum level). b) How much water could be expected from an arrangement Figure 1-b in 30 minutes if 0.5 litre of water was collected from Figure 1-a arrangement in one hour (assume the same type of soil in both arrangement). 0.4m |-0.5 mm|-0.5 -0.50 -0.5 B 1 1 m...
Solve the following problems. 1. Calculate initial stresses (total stress, porewater pressure, effective stress) and Induced stresses at points A, B, and C due to loading shown in the Figure below. (25 points) 1000 psf 4 feet с. 1.5 ft 6 feet A 1.0 ft B 1000 psf Soil I 5.0 ft e = 0.56, G, = 2.65 Soil II e = 0.53, G, = 2.65 4.0 ft 8.0 ft C •A
Water flows in a pipe as shown in Figure Q3. At section 1, height to the centre line of pipe in relation to some datum is Zi (=3m). At section 2, the respective height is Z2 = 5m) as shown. The pipe diameters in section 1 and 2 are 500mm and 440mm respectively. Water velocity at section 1 is 5.6 m/s and the pressure is 45 kPa. Assuming ideal flow conditions and taking water density as 1000 kg/m. 1. Calculate...
Problem 1 (6 Points) Refer to the soil profile in Fig. 1. Plot separate diagrams for total stress (ov), water pressure (us) and effective stress (o'v) Ground Surface Ymoist-110 pcf Silty Sand 10 ft watery Fig. 1 y=112.4 pcf Clay 20 ft
Calculate b,c, and d
1. The following data were collected at a nest of piezometers (several piezometers of different depths located within 1 m of each other). Well 1 Elevation at surface (m.a.s Depth to piezometer (m Well 2 Well 3 375 27 375 17 Depth to static water level (m) 2 *measured from surface elevation down to water table Answer the following questions: Draw a picture of the well nest with the elevation head, pressure head and water table...
A soil profile consisting of 3 layers is shown in Fig. 3. Answer the following V. questions: (20 pts) Layer 1 HI-5 m, e-0.7, Gs 2.69 H2-8 m, e=0.55, Gs 2.70 H3 3 m, w-38%; e=1.2 H Groundwater Layer 2 Layer 3 Dry sand Sand Clay Rock Fig. 3 u, and o at points A, B, C and D. and plot Calculate the values of o 1. the variations of o ,u, and o with depth. (10 pts) Calculate the...
The figure below shows the soil profile conditions below a 5-m deep pond. Water is seeping directly downward under steady-state conditions through the clay layer into underlying gravel. Assume the elevation datum at the top of the gravel layer and that the hydrostatic ground water table is also found in the top of the gravel and its position does not change with time or amount of flow. For these flow conditions, calculate the following: a. b. c. d. e. f....
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