Force from the water on the gate

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SUMMARY

The discussion focuses on calculating the force exerted by water on a tainter gate, specifically one that is 21 feet tall and 14 feet wide, with a water level of 17 feet. The pressure at various depths is determined using the formula for hydrostatic pressure, where pressure is calculated as the product of water density and depth. The user seeks assistance in integrating this pressure over the gate's height to find the total force at the top, middle, and bottom of the gate, as well as determining the flow rate when the gate is raised to specified heights.

PREREQUISITES
  • Understanding of hydrostatic pressure principles
  • Familiarity with calculus, specifically integration
  • Knowledge of fluid mechanics, particularly forces on submerged surfaces
  • Basic understanding of flow rate calculations
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  • Study hydrostatic pressure calculations for submerged surfaces
  • Learn integration techniques for calculating forces on gates
  • Research flow rate calculations for tainter gates
  • Explore the implications of water density variations in calculations
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Engineering students, civil engineers, and anyone involved in hydraulic design or water resource management will benefit from this discussion.

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Homework Statement


A tainter gate for a lake is 21' tall and 14' wide and the water level is 17 feet from the surface to spillway. What force is the water placing on the gate at the top, middle and bottom? Also when the work is done how much water will flow through the gate if the gate is raised 2 ft, 7ft, and 10ft and how high does the gate have to be raised to maintain a flow rate of 2500cfs. the estimated impoundment of water for the lake is 3 billion gallons.


Homework Equations


Can anyone help me get started on this? I would really appreciate it


The Attempt at a Solution

 
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The pressure due to water at depth h feet, in pounds per square foot, is the weight of a column of water one foot in area and h feet high. Taking the (weight) density of water to be \delta pounds per cubic foot, that is \delta h pounds per square foot. To find the total force on a rectangular gate, of width W and height H, imagine a thin rectangle at depth h, of width W and height dh. Its area is Wdx and the force on it is \delta hW dh. Integrate that over from 0 to H.
 
So the force at the top would be 0 right? because there's no pressure from the water? and how would i find the area at the middle and bottom?. I'm good on finding pressure but what about the area?
 

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