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The volume of a spherical balloon is decreasing at a rate of $20 cm^3/min$. How fast is the radius of the balloon decreasing when the volume is $1m^3$?

Basically I did this:

$V=\frac 43\pi r^3$

When the volume is $1m^3$, $r=\sqrt[3] {3000000 cm^3 \over 4\pi}$

Then I implicitly derived the volume equation and got:

${dV \over dt} = 4\pi r^2 {dr\over dt}$

Then I replaced

$ 20 {cm^3 \over min} = 4\pi \sqrt[2/3] {3000000 cm^3 \over 4\pi} {dr \over dt}$

And solving for ${dr \over dt}$ I finally got approximately $0.54 cm/min$

I'm not sure if it's right, or not. And I'm not sure if the final answer should have a minus sign since the radius -and the volume obviously- is decreasing.

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    your only problem I see is squaring $r$, as for the negative sign that depends on your preference you can have it positive and say it is decreasing at $x$ centimeters a minute.2012-11-13

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Your approach is fine, but when you insert $r$ it should be $\frac 23$ power or $\frac 32$ root. You should indicate the radius is decreasing, either with a minus sign or in the text.

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    @ChairOTP: correct. I agree with your figure (though it seems to round to 0.000414)2012-11-13