If you mean: x2+6x+8 then it is (x+4)(x+2) when factored
2x2 + 6x - 8 = 72 ∴ 2x2 + 6x + 64 =0 ∴ x2 + 3x + 32 = 0 This can not be factored, as x is not equal to any integer. Using the quadratic equation, we find that: x = -3/2 ± √119 / 2i
x squared +6x +5 is a quadratic expression that can be factored as (x+1)(x+5)
The expression is: 6x-10 which can be factored to 2(3x-5)
A Quadratic statement
2x2-3 = -6x-2 2x2+6x-3+2 = 0 2x2+6x-1 = 0 When factored with the help of the quadratic equation formula: (2x-0.3166247904)(x+3.1583123952) = 0 Therefore: x = 0.1583123952 and also x = -3.1583123952
The expression 48x + 8 can be factored by finding the greatest common factor of the two terms, which in this case is 8. Therefore, we can rewrite the expression as 8(6x + 1). This is the factored form of 48x + 8.
If you mean: x2+6x+8 then it is (x+4)(x+2) when factored
-4
x2 + 6x - 5 is a quadratic expression that can not be factored.
Yes because dividing all terms by 2 it becomes x2-6x-40 = (x-10)(x+4) when factored
4x3+10x2-6x 2x(2x2+5x-3) 2x(2x-1)(x+3)
3x(x - 2)
2x2 + 6x - 8 = 72 ∴ 2x2 + 6x + 64 =0 ∴ x2 + 3x + 32 = 0 This can not be factored, as x is not equal to any integer. Using the quadratic equation, we find that: x = -3/2 ± √119 / 2i
2x2+6x-8 = 72 2x2+6x-8-72 = 0 2x2+6x-80 = 0 (2x-10)(x+8) = 0
x squared +6x +5 is a quadratic expression that can be factored as (x+1)(x+5)
The expression is: 6x-10 which can be factored to 2(3x-5)