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(B) The rate of inflow is given by $Q_{in} = 10^{-4} \; m^3/s$.The rate of outflow through the hole is given by $Q_{out} = A_{hole} 	imes v$, where $

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$0.051$

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(B) The rate of inflow is given by $Q_{in} = 10^{-4} \; m^3/s$.The rate of outflow through the hole is given by $Q_{out} = A_{hole} 	imes v$, where $v$ is the velocity of efflux.According to Torricelli's law, the velocity of efflux is $v = \sqrt{2gh}$.For the water level to remain constant (steady state), the rate of inflow must equal the rate of outflow: $Q_{in} = Q_{out}$.$10^{-4} = (10^{-4}) 	imes \sqrt{2gh}$.Dividing both sides by $10^{-4}$, we get $1 = \sqrt{2gh}$.Squaring both sides, $1 = 2gh$.Solving for $h$, $h = \frac{1}{2g}$.Using $g = 9.8 \; m/s^2$, $h = \frac{1}{2 	imes 9.8} = \frac{1}{19.6} \approx 0.051 \; m$.

Water flows into a cylindrical vessel of large cross-sectional area at a rate of $10^{-4} \; m^3/s$. It flows out from a hole of area $10^{-4} \; m^2$, which has been punched through the base. How high does the water rise in the vessel (in $; m$)?

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