A 100-ft long dam holds 30 ft of water as shown in the figure. Using the panel equations, determine the hydrostatic force (in kips) acting on the dam. Determine the moment of inertia of the wetted surface of the dam. Your answer should be in ft^4. Determine the eccentricity in feet. At what distance from the bottom of the dam (along the surface of the dam) is the hydrostatic force acting? Your answer should be in feet.
A 100-ft long dam holds 30 ft of water as shown in the figure. Using the panel equations, determine the hydrostatic force (in kips) acting on the dam. Determine the moment of inertia of the wetted surface of the dam. Your answer should be in ft^4. Determine the eccentricity in feet. At what distance from the bottom of the dam (along the surface of the dam) is the hydrostatic force acting? Your answer should be in feet.
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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A 100-ft long dam holds 30 ft of water as shown in the figure.
- Using the panel equations, determine the hydrostatic force (in kips) acting on the dam.
- Determine the moment of inertia of the wetted surface of the dam. Your answer should be in ft^4.
- Determine the eccentricity in feet.
- At what distance from the bottom of the dam (along the surface of the dam) is the hydrostatic force acting? Your answer should be in feet.
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