SOLVEDFactor the square of the binomial. 4 z^{2}+12 z+9
Factor 16X 2 81. Rewrite 16x2 16 x 2 as (4x)2 ( 4 x) 2. Web 16x2 −81 = (4x +9)(4x −9) explanation:
SOLVEDFactor the square of the binomial. 4 z^{2}+12 z+9
This means that, at zero. Web 16x2 −81 = (4x +9)(4x −9) explanation: Some of the links below are affiliate links. Step 1 :equation at the end of step 1 : Step 1 :equation at the end of step 1 : Web factoring is a useful way to find rational roots (which correspond to linear factors) and simple roots involving square roots of integers (which correspond to quadratic factors). (4x + 9i) • (4x − 9i) to verify that our answer is. Web 16x 2 + 81 = (4x) 2 + 9 2 now that it matches, we can simply plug in 4x for a and 9 for b into the formula to get the factors of 16x^2+81: Rewrite 16x2 16 x 2 as (4x)2 ( 4 x) 2. Web to factor by greatest common monomial factor, find the greatest common monomial factor among the terms of the expression and then factor it out of each term.
Web 16x 2 + 81 = (4x) 2 + 9 2 now that it matches, we can simply plug in 4x for a and 9 for b into the formula to get the factors of 16x^2+81: Web 16x2 −81 = (4x +9)(4x −9) explanation: And it does, as illustrated below: Step 1 :equation at the end of step 1 : Web factoring is a useful way to find rational roots (which correspond to linear factors) and simple roots involving square roots of integers (which correspond to quadratic factors). (4x + 9i) • (4x − 9i) to verify that our answer is. Some of the links below are affiliate links. We use the difference of square relationship x2 −y2 = (x + y)(x −y) 16x2 −81 = (4x +9)(4x −9) answer link related. Web 16x 2 + 81 = (4x) 2 + 9 2 now that it matches, we can simply plug in 4x for a and 9 for b into the formula to get the factors of 16x^2+81: This means that, at zero. Rewrite 81 81 as 92 9 2.