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Rates and Changes help needed (1 Viewer)

cssftw

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Hi guys need a bit of help on this question:

Q. Water is poured into an inverted cone at a rate of 10cm^3 /second. The radius of the cone is 5cm and its height is 10cm.

(i) At what rate is the level rising after 2 seconds?
(ii) At what rate is the level rising when the level is 8cm?

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My solution (please someone figure out what is wrong with it):

dV/dt = 10 cm^3 / second

We are trying to find dx/dt (where x is the length from the tip of cone to the level of water --> remember the cone is INVERTED

dx/dt = dV/dt * dx/dV

V=(1/3)(pi)(r^2)(h)

x=h, r=r, therefore:

V=(1/3)(pi)(r^2)x

By using similar triangles:

x/10 = r/5 (sorry I don't have a diagram)

Therefore r = x/2, subbing back into V:

V = (1/3)(pi)((x^2)/4)(x)
V = ((pi)(x^3))/12

Therefore:

dV/dx = 3(x^2)(pi)/12
dV/dx = (x^2)(pi)/4

THEREFORE: dx/dV = 4/(x^2)(pi)

Substituting this back into the chain rule expression:

dx/dt = dx/dV * dV/dt


dx/dt = 40/((x^2)(pi)) m/s


So that's what I got for my expression of the rate of change of water level -- however it doesn't look very right, does it? I mean how do I find the rate of change at t=2 seconds?

If anyone could find the proper expression for dx/dt, and how to find the answer to the questions it would be immensely appreciated! :)
 

rolpsy

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your expression for dx/dt is correct



and

 

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