Difference between revisions of "Proportion/Intermediate"
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+ | First, let's write these out algebraically: the first is <math>x=k(y^2+z^2)</math>, the second is <math>xy=k_1</math>, and the third is <math>xz^2=k_2</math>. Plugging the values into the first equation gives <math>8=k((\frac{1}{2})^2+(\frac{\sqrt{3}}{2})^2)=k(\frac{1}{4}+\frac{3}{4})=k</math>, so <math>k=8</math>. The second gives <math>8*\frac{1}{2}=4=k_1</math>, and the third gives <math>8*(\frac{\sqrt{3}}{2})^2=8*3/4=6=k_2</math>. We can use any of these three to solve the problem. Using the second gives us <math>1*y=y=4</math>, so the answer is <math>y=4</math>. | ||
[[Category:Intermediate Algebra Problems]] | [[Category:Intermediate Algebra Problems]] |
Latest revision as of 13:24, 26 February 2013
Problem
is directly proportional to the sum of the squares of and and inversely proportional to and the square of . If when and , find when and . (Thanks to Bicameral of the AoPS forum for this one)
Solution
First, let's write these out algebraically: the first is , the second is , and the third is . Plugging the values into the first equation gives , so . The second gives , and the third gives . We can use any of these three to solve the problem. Using the second gives us , so the answer is .