2023 AMC 12B Problems/Problem 13
Problem
A rectangular box P has distinct edge lengths , , and . The sum of the lengths of all edges of P is , the areas of all 6 faces of P is , and the volume of P is . What is the length of the longest interior diagonal connecting two vertices of P?
Solution 1 (algebraic manipulation)
We can create three equations using the given information. We also know that we want . We know that . . So . So our answer is .
~lprado
Solution 2 (factoring a polynomial)
We use the equations from Solution 1 and manipulate it a little: Notice how these are the equations for the vieta's formulas for a polynomial with roots of , , and . Let's create that polynomial. It would be . Multiplying each term by 4 to get rid of fractions, we get . Notice how the coefficients add up to . Whenever this happens, that means that is a factor and that 1 is a root. After using synthetic division to divide by , we get . Factoring that, you get . This means that this polynomials factors to and that the roots are , , and . Since we're looking for , this is equal to
~lprado