Rate of Change: Show dh/dt Proportional to h^(1/2)

AI Thread Summary
The discussion centers on a rate of change problem involving fluid dynamics in a cylindrical tank. The fluid's outflow rate is proportional to the square root of the remaining volume, leading to the differential equation dh/dt = -kh^(1/2), where k is a positive constant. The relationship between volume and depth is established using V(t) = πR²h(t), allowing for the substitution of variables. The key takeaway is the application of the chain rule to connect static geometric equations with dynamic rates of change. Understanding this relationship is crucial for solving similar rate of change problems effectively.
padraig
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Sorry to bore you all with this rate of change question, I really hate this area of maths and struggle to get my hea round it. Here it is, I'd be greatful for any help you have to offer:

Fluid flows out of a cylindrical tank with constant corss section. At the time t minutes (t is greater of equal to 0), the volume of fluid remaining in the tank is V m^3. The rate at which the fluid flows, in m^3min^-1, is proportional to the square root of V. Show that the depth h metre's of fluid in the tank satisfies the differential equation:

dh/dt = -kh^(1/2) where k is a +ve constant

Cheers

Pat
 
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dV/dt=-aV^(1/2), by assumption.

V(t)=pi*R^(2)*h(t)=b*h(t) (where R is the radius)
Rearranging a bit, and introducing k yields the desired result
 
thanks v much, great help

Pat
 
In other words, the whole point of "rate of change problems" is to use a static equation (typically a geometry formula or something like that) that has no time variable, t, in it and then use the chain rule to differentiate both sides of the equation- giving a formula connecting the rates of change of the quantities.
 

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