Difference between revisions of "2015 AMC 10A Problems/Problem 15"
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This can be factored into <math>(x - 10)(y + 11) = -110</math>. | This can be factored into <math>(x - 10)(y + 11) = -110</math>. | ||
− | Either <math>x - 10</math> has to be positive and <math>y + 11</math> has to be negative or vice versa, but if <math>y + 11</math> as negative, then <math>y</math> would be negative, so | + | Either <math>x - 10</math> has to be positive and <math>y + 11</math> has to be negative or vice versa, but if <math>y + 11</math> as negative, then <math>y</math> would be negative, so this halves our search space. |
Similarly, <math>x > 0</math>, so <math>x - 10> -10</math> and <math>y > 0</math>, so <math>y + 11 > 11</math>. | Similarly, <math>x > 0</math>, so <math>x - 10> -10</math> and <math>y > 0</math>, so <math>y + 11 > 11</math>. | ||
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But we can't stop here because <math>x</math> and <math>y</math> must be relatively prime. | But we can't stop here because <math>x</math> and <math>y</math> must be relatively prime. | ||
− | <math>(-1, 110)</math> gives <math>x = 9</math> and <math>y = 99</math>. <math>9</math> and <math>99</math> are not relatively prime so this doesn't work. | + | <math>(-1, 110)</math> gives <math>x = 9</math> and <math>y = 99</math>. <math>9</math> and <math>99</math> are not relatively prime, so this doesn't work. |
<math>(-2, 55)</math> gives <math>x = 8</math> and <math>y = 44</math>. This doesn't work. | <math>(-2, 55)</math> gives <math>x = 8</math> and <math>y = 44</math>. This doesn't work. |
Revision as of 18:08, 4 February 2015
Problem
Consider the set of all fractions , where and are relatively prime positive integers. How many of these fractions have the property that if both numerator and denominator are increased by , the value of the fraction is increased by ?
Solution
You can create the equation
Cross multiplying and combining like terms gives .
This can be factored into .
Either has to be positive and has to be negative or vice versa, but if as negative, then would be negative, so this halves our search space.
Similarly, , so and , so .
This leaves the factor pairs: .
But we can't stop here because and must be relatively prime.
gives and . and are not relatively prime, so this doesn't work.
gives and . This doesn't work.
gives and . This does work.
We found one valid solution so the answer is .