Difference between revisions of "1950 AHSME Problems/Problem 33"
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A circular pipe with diameter 1 inch and height h has a volume of <math>\pi \left(\frac{1}{2}\right)^2h=\frac{\pi h}{4}</math>. A pipe with diameter 6 inches and height h has volume <math>\pi \left(\frac{6}{2}\right)^2h=9\pi h</math>. To find how many 1-pipes fit in a 6-pipe, we divide: <math>\frac{9\pi h}{\frac{\pi h}{4}}=\frac{9*4\pi h}{\pi h}=\frac{36\pi h}{\pi h}=36 \textbf{(D)}</math> | A circular pipe with diameter 1 inch and height h has a volume of <math>\pi \left(\frac{1}{2}\right)^2h=\frac{\pi h}{4}</math>. A pipe with diameter 6 inches and height h has volume <math>\pi \left(\frac{6}{2}\right)^2h=9\pi h</math>. To find how many 1-pipes fit in a 6-pipe, we divide: <math>\frac{9\pi h}{\frac{\pi h}{4}}=\frac{9*4\pi h}{\pi h}=\frac{36\pi h}{\pi h}=36 \textbf{(D)}</math> | ||
− | If the ratio of similar length of similar shapes is x, then the ratio between area is x^2. Therefore, since the ratio between diameters is 1/6, the ratio between area is 1/36, so 36 pipes of diameter 1 are required. | + | If the ratio of similar length of similar shapes is x, then the ratio between area is <math>x^2</math>. Therefore, since the ratio between diameters is 1/6, the ratio between area is 1/36, so 36 pipes of diameter 1 are required. |
==See Also== | ==See Also== |
Revision as of 15:36, 30 July 2017
Problem
The number of circular pipes with an inside diameter of inch which will carry the same amount of water as a pipe with an inside diameter of inches is:
Solution
It must be assumed that the pipes have an equal height.
A circular pipe with diameter 1 inch and height h has a volume of . A pipe with diameter 6 inches and height h has volume . To find how many 1-pipes fit in a 6-pipe, we divide:
If the ratio of similar length of similar shapes is x, then the ratio between area is . Therefore, since the ratio between diameters is 1/6, the ratio between area is 1/36, so 36 pipes of diameter 1 are required.
See Also
1950 AHSC (Problems • Answer Key • Resources) | ||
Preceded by Problem 32 |
Followed by Problem 34 | |
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