Maintaining Volume in a Cylinder: Solving for the Necessary Radius Adjustment

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To maintain the volume of a cylinder while increasing its height by 30%, the radius must be adjusted. The volume formula for a cylinder is V = πr²h. After increasing the height to 1.3h, the equation becomes V = π(r0)²(1.3h), where r0 is the new radius. By equating the two volume expressions, it can be determined that r²h = 1.3(r0)²h, allowing for the calculation of the necessary radius adjustment. Understanding this relationship is crucial for solving the problem effectively.
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please help me thank you so much ^^(I need help quick before the due date thanks)

Here the problem:

A soup company decides to increase the height of its can by 30% but to maintain their present volume. To the nearest percent, how much must the radius of the can be decreased to hold the volume constant.

(there a picture of the can which is a plain cyclinder)

I try working backward for the equation to find the volume of a cyclinder
, but i really don't know if I got that right. please help me
 
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So the volume for a cylinder is pi r^2 h. Since we're increasing the height by 30%, this just means that we multiply h by 1.3 to get the new height. So let's call h the original height, and V the volume. Then we have:

V = pi r^2 h = pi (r0)^2 (1.3h), and we need to solve for r0, which is our new radius. Clearly, pi doesn't factor in so we have the equation r^2 h = 1.3 (r0)^2 h. I take it you can solve for r0.
 
phreak said:
So the volume for a cylinder is pi r^2 h. Since we're increasing the height by 30%, this just means that we multiply h by 1.3 to get the new height. So let's call h the original height, and V the volume. Then we have:

V = pi r^2 h = pi (r0)^2 (1.3h), and we need to solve for r0, which is our new radius. Clearly, pi doesn't factor in so we have the equation r^2 h = 1.3 (r0)^2 h. I take it you can solve for r0.

Oh thanks but I still don't get why is it r0?
 

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