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#1 2007-07-04 10:17:39
- yonski
- Member
- Registered: 2005-12-14
- Posts: 67
Differential equation
Hi there, i'm having a bit of trouble with this question:
Fluid flows out of a cylindrical tank with constant cross section. At time t minutes, t>0, the volume of fluid remaining in the tank is V m³. The rate at which the fluid flows in m³/min is proportional to the square root of V.
Show that the depth h metres of fluid in the tank satisfies the differential equation
dh/dt = -k√h , where k is a positive constant.
Here's what i've done so far:
Let the radius of the base of the cylinder be r metres. This gives
dV/dt = -k√V
V = pi*r²h
dh/dV = 1/(pi*r^2)
dh/dt = dh/dV * dV/dt = - k√(h/(pi*r²))
Sorry if all this looks a bit messy, i'm not very good at typing equations on here, hopefully it's legible though.
Anyway, my book says the answer is simply dh/dt = -k√h . I can't for the life of me see what i'm doing wrong though.
Any help appreciated!
Student: "What's a corollary?"
Lecturer: "What's a corollary? It's like when a theorem has a child. And names it corollary."
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#2 2007-07-04 10:37:20
- JaneFairfax
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- Registered: 2007-02-23
- Posts: 6,868
Re: Differential equation
You started with the correct idea, but you just need to use a different constant of proportionality than k at the beginning say, c.
Let A be the cross-sectional area (which is given to be constant). Then V = Ah.
Last edited by JaneFairfax (2007-07-04 10:39:02)
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#3 2007-07-04 11:04:56
- yonski
- Member
- Registered: 2005-12-14
- Posts: 67
Re: Differential equation
Ah yeah, I shouldn't have used the same constant of proportionality with both equations. Doh!
Thanks for your help 
Student: "What's a corollary?"
Lecturer: "What's a corollary? It's like when a theorem has a child. And names it corollary."
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