2005 AIME II Problems/Problem 13
Contents
Problem
Let be a polynomial with integer coefficients that satisfies and Given that has two distinct integer solutions and find the product
Solution
We define , noting that it has roots at and . Hence . In particular, this means that . Therefore, satisfy , where , , and are integers. This cannot occur if or because the product will either be too large or not be a divisor of . We find that and are the only values that allow to be a factor of . Hence the answer is .
Solution 2
We know that so has two distinct solutions so is at least quadratic. Let us first try this problem out as if is a quadratic polynomial. Thus because where are all integers. Thus where are all integers. We know that or and or . By doing we obtain that or or . Thus . Now we know that , we have or which makes . Thus . By Vieta's formulas, we know that the sum of the roots() is equal to 41 and the product of the roots() is equal to . Because the roots are integers has to be an integer, so . Thus the product of the roots is equal to one of the following: . Testing every potential product of the roots, we find out that the only product that can have divisors that sum up to 41 is 418.
See also
2005 AIME II (Problems • Answer Key • Resources) | ||
Preceded by Problem 12 |
Followed by Problem 14 | |
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