Difference between revisions of "1952 AHSME Problems/Problem 41"

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Increasing the radius of a cylinder by <math>6</math> units increased the volume by <math>y</math> cubic units. Increasing the altitude of the cylinder by <math>6</math> units also increases the volume by <math>y</math> cubic units. If the original altitude is <math>2</math>, then the original radius is:  
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Increasing the radius of a cylinder by <math>6</math> units increased the volume by <math>y</math> cubic units. Increasing the height of the cylinder by <math>6</math> units also increases the volume by <math>y</math> cubic units. If the original height is <math>2</math>, then the original radius is:  
  
 
<math>\text{(A) } 2 \qquad
 
<math>\text{(A) } 2 \qquad
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\text{(E) } 8 </math>
 
\text{(E) } 8 </math>
  
== Solution ==
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== Solution 1==
<math>\fbox{C}</math>
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We know that the volume of a cylinder is equal to <math>\pi r^2h</math>, where <math>r</math> and <math>h</math> are the radius and height, respectively. So we know that <math>2\pi (r+6)^2-2\pi r^2=y=\pi r^2(2+6)-2\pi r^2</math>. Expanding and rearranging, we get that <math>2\pi (12r+36)=6\pi r^2</math>. Divide both sides by <math>6\pi</math> to get that <math>4r+12=r^2</math>, and rearrange to see that <math>r^2-4r-12=0</math>. This factors to become <math>(r-6)(r+2)=0</math>, so <math>r=6</math> or <math>r=-2</math>. Obviously, the radius cannot be negative, so our answer is <math>\fbox{(C) 6}</math>
  
 
== See also ==
 
== See also ==
 
{{AHSME 50p box|year=1952|num-b=40|num-a=42}}   
 
{{AHSME 50p box|year=1952|num-b=40|num-a=42}}   
  
[[Category: Intermediate Geometry Problems]]
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[[Category: Introductory Geometry Problems]]
 
{{MAA Notice}}
 
{{MAA Notice}}

Latest revision as of 00:19, 13 September 2022

Problem

Increasing the radius of a cylinder by $6$ units increased the volume by $y$ cubic units. Increasing the height of the cylinder by $6$ units also increases the volume by $y$ cubic units. If the original height is $2$, then the original radius is:

$\text{(A) } 2 \qquad \text{(B) } 4 \qquad \text{(C) } 6 \qquad \text{(D) } 6\pi \qquad \text{(E) } 8$

Solution 1

We know that the volume of a cylinder is equal to $\pi r^2h$, where $r$ and $h$ are the radius and height, respectively. So we know that $2\pi (r+6)^2-2\pi r^2=y=\pi r^2(2+6)-2\pi r^2$. Expanding and rearranging, we get that $2\pi (12r+36)=6\pi r^2$. Divide both sides by $6\pi$ to get that $4r+12=r^2$, and rearrange to see that $r^2-4r-12=0$. This factors to become $(r-6)(r+2)=0$, so $r=6$ or $r=-2$. Obviously, the radius cannot be negative, so our answer is $\fbox{(C) 6}$

See also

1952 AHSC (ProblemsAnswer KeyResources)
Preceded by
Problem 40
Followed by
Problem 42
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