How do you solve #y=-(x-4)^2+1#? Algebra Quadratic Equations and Functions Comparing Methods for Solving Quadratics 1 Answer Meave60 · Jim H Jul 10, 2015 The solution is #y=x^2-8+17#. Explanation: #y=(x-4)^2+1# #(x-4)^2# represents a square of a difference, the formula of which is #(x-4)^2=a^2+2ab+b^2#, where #a=x,# and #b=-4#. #(x-4)^2=(x^2)+(2*x*-4)+(-4)^2# = #x^2-8x+16# Substitute the equation back to the original equation. #y=x^2-8x+16+1#= #y=x^2-8+17# Answer link Related questions What are the different methods for solving quadratic equations? What would be the best method to solve #-3x^2+12x+1=0#? How do you solve #-4x^2+4x=9#? What are the two numbers if the product of two consecutive integers is 72? Which method do you use to solve the quadratic equation #81x^2+1=0#? How do you solve #-4x^2+4000x=0#? How do you solve for x in #x^2-6x+4=0#? How do you solve #x^2-6x-16=0# by factoring? How do you solve by factoring and using the principle of zero products #x^2 + 7x + 6 = 0#? How do you solve #x^2=2x#? See all questions in Comparing Methods for Solving Quadratics Impact of this question 1429 views around the world You can reuse this answer Creative Commons License