Calculate the fluid force on one side of the plate using the
coordinate system shown below. Assume the density is 62.4
lb/ft^3
Answer: The fluid force on one side of the plate is ______ lb
The fluid force on one side of the plate is lb.
Homework Answers
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Calculate the fluid force on one side of the plate using the coordinate system shown below....
Calculate the fluid force on one side of the plate using the coordinate system shown below....
Calculate the fluid force on one side of the plate using the coordinate system shown below. Assume the density is 62.4 lb/ft y (ft) Surface of pool x (ft) -4 Depth T -10
AY X Calculate the fluid force on one side of a semicircular plate of radius 10...
AY X Calculate the fluid force on one side of a semicircular plate of radius 10 ft that rests vertically on its diameter at the bottom of a pool filled with water to a depth of 14 ft. Assume the weight-density of water is 62.4 lb/ft3.
Calculate the fluid force on one side of a plate shown in the figure. Diameter of...
Calculate the fluid force on one side of a plate shown in the figure. Diameter of the semicircle is 5 m. and stays vertically at the bottom of a pool filled with water. Depth of the pool is 6m (30p) Surface of water 6 5 x
Problems 6-8: Consider that you are calculating the force acting on the top surface of a...
Problems 6-8: Consider that you are calculating the force acting on the top surface of a plate that is submerged under water to a depth h. The equation F PA can be used to calculate the Force, F, acting on the plates top surface where P is the pressure of the water acting on the top surface and A is area of the surface. Furthermore, P is given by P-ρgh where ρ is the density of H20, g is the...
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-
Question 19 4 pts Find the fluid force on the vertical side of the tank, where...
Question 19 4 pts Find the fluid force on the vertical side of the tank, where the dimensions are given in feet. Assume that the tank is full of water. Note: The density of water is 62.4 lbs per cubic foot. -5 3 2340 lb 468 lb 62.4 lb 249.6 lb 1404 lb
Calculate the total force (in Newtons) on a side of the plate in the figure, submerged...
Calculate the total force (in Newtons) on a side of the plate in the figure, submerged in fluid of mass density p = 925kg/mº. Assume g= 9.8m/s. 3 m 2 m/ 7 m F =
Let's say there is a retainer wall that typically holds back water. However, there has been...
Let's say there is a retainer wall that typically holds back water. However, there has been an oil spill and we need to calculate the force this new fluid has the wall to determine its capacity. As shown in the diagram, there is 3ft of oil sitting on top of 17ft of water. Oil has a density of 55lbf/ft? and water has a density of 62.4 Ibf/ft?. You can assume the top of the fluid surface is open to the...
Hydrostatic Force
A swimming pool is 10 ft wide and 20 ft long and its bottom is an inclined plane, the shallow end having a depth of 4 ft and the deep end, 11 ft. Assume the pool is full of water. (Round your answers to the nearest whole number. Recall that the weight density of water is 62.5 lb/ft3.)Estimate the hydrostatic force on one of the sides.
11. A vertical square hatch (3 ft by 3 ft) is located on the side of...
11. A vertical square hatch (3 ft by 3 ft) is located on the side of a tank containing water (unit wt 62.4 lb/ ft). The top edge of the hatch is 4 feet below the water surface in the tank. Find the depth to the centroid of the hatch and the resultant hydrostatic force acting on it. 12. Find the depth to the center of pressure of the hatch in Problem 11.
Calculate the fluid force on one side of the plate using the coordinate system shown below. Assume the density is 62.4 lb/ft y (ft) Surface of pool x (ft) -4 Depth T -10
AY X Calculate the fluid force on one side of a semicircular plate of radius 10 ft that rests vertically on its diameter at the bottom of a pool filled with water to a depth of 14 ft. Assume the weight-density of water is 62.4 lb/ft3.
Calculate the fluid force on one side of a plate shown in the figure. Diameter of the semicircle is 5 m. and stays vertically at the bottom of a pool filled with water. Depth of the pool is 6m (30p) Surface of water 6 5 x
Problems 6-8: Consider that you are calculating the force acting on the top surface of a plate that is submerged under water to a depth h. The equation F PA can be used to calculate the Force, F, acting on the plates top surface where P is the pressure of the water acting on the top surface and A is area of the surface. Furthermore, P is given by P-ρgh where ρ is the density of H20, g is the...
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-
Question 19 4 pts Find the fluid force on the vertical side of the tank, where the dimensions are given in feet. Assume that the tank is full of water. Note: The density of water is 62.4 lbs per cubic foot. -5 3 2340 lb 468 lb 62.4 lb 249.6 lb 1404 lb
Calculate the total force (in Newtons) on a side of the plate in the figure, submerged in fluid of mass density p = 925kg/mº. Assume g= 9.8m/s. 3 m 2 m/ 7 m F =
Let's say there is a retainer wall that typically holds back water. However, there has been an oil spill and we need to calculate the force this new fluid has the wall to determine its capacity. As shown in the diagram, there is 3ft of oil sitting on top of 17ft of water. Oil has a density of 55lbf/ft? and water has a density of 62.4 Ibf/ft?. You can assume the top of the fluid surface is open to the...
11. A vertical square hatch (3 ft by 3 ft) is located on the side of a tank containing water (unit wt 62.4 lb/ ft). The top edge of the hatch is 4 feet below the water surface in the tank. Find the depth to the centroid of the hatch and the resultant hydrostatic force acting on it. 12. Find the depth to the center of pressure of the hatch in Problem 11.
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