Question #3, but it has to do with question #1 but with a reservoir elevation of 71.98 3)reservoir elevation 71.98m. How much of a reduction in flow was there when theelevation in the reservoir is reduced by over 60%? 1) A 150-mm-diameter, square-edged orifice conveys flow from a reservoir with water level at elevation 79.25m. Thecenter of the orifice is at elevation 66.10m. Find the discharge for free flow. Note: The orifice flow equation is set upalready for feet or meters.- Calculate the height of the water above the orifice.- Calculate the area of the orifice.- Assume the coefficient of discharge based on what was learned in class.- Use the appropriate equation to solve for the flow through the orifice.- Compare your answer: 0.176 m^3/s

Answer (3) We know that discharge equation for an orifice is given by Q = Cd*A*2gh where Cd is…

Answered: 3) reservoir elevation 71.98m. How much…

3) reservoir elevation 71.98m. How much of a reduction in flow was there when the elevation in the reservoir is reduced by over 60%?

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Chapter2: Loads On Structures

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Question

Question #3, but it has to do with question #1 but with a reservoir elevation of 71.98

3)
reservoir elevation 71.98m. How much of a reduction in flow was there when the
elevation in the reservoir is reduced by over 60%?

1) A 150-mm-diameter, square-edged orifice conveys flow from a reservoir with water level at elevation 79.25m. The
center of the orifice is at elevation 66.10m. Find the discharge for free flow. Note: The orifice flow equation is set up
already for feet or meters.
- Calculate the height of the water above the orifice.
- Calculate the area of the orifice.
- Assume the coefficient of discharge based on what was learned in class.
- Use the appropriate equation to solve for the flow through the orifice.
- Compare your answer: 0.176 m^3/s

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