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Difference between revisions of "1950 AHSME Problems/Problem 33"

(Solution)
(Solution)
Line 14: Line 14:
 
We can represent the amount of water carried per unit time by cross sectional area.
 
We can represent the amount of water carried per unit time by cross sectional area.
 
Cross sectional of Pipe with diameter <math>6 in</math>,  
 
Cross sectional of Pipe with diameter <math>6 in</math>,  
<cmath>\pir^2 = \pi \cdot 3^2 = 9\pi</cmath>
+
<cmath>\pi r^2 = \pi \cdot 3^2 = 9\pi</cmath>
  
 
Cross sectional area of pipe with diameter <math>1 in</math>
 
Cross sectional area of pipe with diameter <math>1 in</math>
  
<cmath>\pir^2 = \pi \cdot 0.5 \cdot 0.5 = \frac{\pi}{4}</cmath>  
+
<cmath>\pi r^2 = \pi \cdot 0.5 \cdot 0.5 = \frac{\pi}{4}</cmath>  
  
 
So number of 1 in pipes required is the number obtained by dividing their cross sectional areas
 
So number of 1 in pipes required is the number obtained by dividing their cross sectional areas

Revision as of 21:19, 24 December 2023

Problem

The number of circular pipes with an inside diameter of $1$ inch which will carry the same amount of water as a pipe with an inside diameter of $6$ inches is:

$\textbf{(A)}\ 6\pi \qquad \textbf{(B)}\ 6 \qquad \textbf{(C)}\ 12 \qquad \textbf{(D)}\ 36 \qquad \textbf{(E)}\ 36\pi$

Solution

It must be assumed that the pipes have an equal height.

We can represent the amount of water carried per unit time by cross sectional area. Cross sectional of Pipe with diameter $6 in$, \[\pi r^2 = \pi \cdot 3^2 = 9\pi\]

Cross sectional area of pipe with diameter $1 in$

\[\pi r^2 = \pi \cdot 0.5 \cdot 0.5 = \frac{\pi}{4}\]

So number of 1 in pipes required is the number obtained by dividing their cross sectional areas

\[\frac{9\pi}{\frac{\pi}{4}} = 36\]

So the answer is $\boxed{\textbf{(D)}\ 36}$.

See Also

1950 AHSC (ProblemsAnswer KeyResources)
Preceded by
Problem 32 		Followed by
Problem 34
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All AHSME Problems and Solutions

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