Difference between revisions of "2005 AMC 10A Problems/Problem 10"
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Since this quadratic must have a double root, the discriminant of the quadratic formula for this quadratic must be 0. Therefore, we must have | Since this quadratic must have a double root, the discriminant of the quadratic formula for this quadratic must be 0. Therefore, we must have | ||
<cmath> (a+8)^2 - 4(4)(9) = 0 \implies a^2 + 16a - 80. </cmath> We can use the quadratic formula to solve for its roots (we can ignore the things in the radical sign as they will cancel out due to the <math>\pm</math> sign when added). So we must have | <cmath> (a+8)^2 - 4(4)(9) = 0 \implies a^2 + 16a - 80. </cmath> We can use the quadratic formula to solve for its roots (we can ignore the things in the radical sign as they will cancel out due to the <math>\pm</math> sign when added). So we must have | ||
− | <cmath> | + | <cmath> {-16 + \sqrt{\text{something}}}{2} + \frac{-16 - \sqrt{\text{something}}}{2}. </cmath> |
− | Therefore, we have <math> | + | Therefore, we have \implies \boxed{A}.<math> |
+ | |||
+ | == Solution 3== | ||
+ | There is only one positive value for k such that the quadratic equation would have only one solution. | ||
+ | k-8 and -k-8 are the values of a. I am certain we al know what -8-8 is. That’s correct, \implies \boxed{A}.</math> | ||
==See Also== | ==See Also== |
Revision as of 19:13, 20 November 2018
Problem
There are two values of for which the equation has only one solution for . What is the sum of those values of ?
Solution
A quadratic equation has exactly one root if and only if it is a perfect square. So set
Two polynomials are equal only if their coefficients are equal, so we must have
or .
So the desired sum is
Alternatively, note that whatever the two values of are, they must lead to equations of the form and . So the two choices of must make and so and .
Alternate Solution
Since this quadratic must have a double root, the discriminant of the quadratic formula for this quadratic must be 0. Therefore, we must have We can use the quadratic formula to solve for its roots (we can ignore the things in the radical sign as they will cancel out due to the sign when added). So we must have Therefore, we have \implies \boxed{A}.
See Also
The problems on this page are copyrighted by the Mathematical Association of America's American Mathematics Competitions.