How Does Viscosity Affect Water Flow Rate in a Draining Tank?

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Viscosity does not depend on the area of the hole; it is a constant property of the fluid. The formula provided for calculating flow rate may not be appropriate for this scenario, as the tank's large area keeps the water height above the hole nearly constant. Instead, the water can be treated as a solid falling under gravity to determine the flow rate. The correct approach involves calculating the volume of water passing through the hole over time. Understanding these principles is crucial for accurately determining the water flow rate in the draining tank.
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A tank of large area is filled with water to a depth of 0.6m. A hole of 6m^2 cross section in the bottom allows water to drain out in a continuous stream. What is the rate at which water flows out the tank in m^3/s?
This is how I figure the problem should be solved:
Q= pi*r^4(p1-p2)/8L*viscosity

Area= 6e-4m^2
h= 0.6m
P= rho*g*h= 1.00e3kg/m^3*9.8m/s^2*0.6m= 5880N/m^2
what I can't figure out is how do I get viscosity from the area
 
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Didn't you post this under a different forum?


You CAN'T get "viscosity" from area. Viscosity is a phyical property of the fluid itself. If you really needed it you should look up the viscosity is a table of physical/chemical constants.

However, I don't think that formula is what you want. The point of saying that this tank is "of very large area" is that as water drains the height of the water above the hole stays essentially the same. I would suggest treating the water above the hole as a solid falling under gravity. How much water will pass through the hole in unit time?
 
so do I use the formula Q=volume/time?
 
I believe I answered this question in the other forum. Look it up.
 
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