Answer:
Z = 3 + 0.23t
The water level is rising
Explanation:
Please see attachment for the equation
Answer:
a) the expression is [tex]z=\frac{(Q_{1}-Q_{0})t }{q\pi D+\frac{\pi }{4} D^{2} } +z_{1}[/tex]
b) z = 0.00057t + 3
the water level in the tank is rising
Explanation:
a) Given
Q₁ = flow rate into the tank
Q₀ = flow rate out of the tank
[tex]q\frac{dA}{dt}[/tex] = rate of water leakage
V = volume
[tex]\frac{dV}{dt}[/tex] = rate of accumulation
the expression is
[tex]Q_{1} =Q_{0} +q\frac{dA}{dt} +\frac{dV}{dt} \\Q_{1} -Q_{0}=q\frac{d(\pi Dz)}{dt} +\frac{d(\frac{\pi }{4} D^{2}z) }{dt} \\(Q_{1} -Q_{0})dt=(q\pi D+\frac{\pi }{4} D^{2} )dz[/tex]
we apply the integral on both sides
[tex]\int\limits^t_0 {(Q_{1} -Q_{0})dt=\int\limits^a_b {q\pi D+\frac{\pi }{4} D^{2} } \, } \, dz[/tex]
[tex]z=\frac{(Q_{1}-Q_{0})t }{q\pi D+\frac{\pi }{4} D^{2} } +z_{1}[/tex]
b) Replacing values in the expression
[tex]z=\frac{(0.022-0.011)t}{0.022*\pi *5+\frac{\pi }{4} *5^{2} } +3\\z=0.00057t+3[/tex]
the water level in the tank is rising
