You can use the formula for factoring the difference of two squares in this case.
It is a quadratic expression and is (2y-1)(3y-4) when factored
x squared +6x +5 is a quadratic expression that can be factored as (x+1)(x+5)
The expression x squared plus x can be simplified as x^2 + x. This is a quadratic expression with a leading coefficient of 1. It represents a polynomial with two terms, a quadratic term (x^2) and a linear term (x).
The expression x2 + 1x - 12 can be factored out as (x - 3)(x + 4)
It is a quadratic expression which when factored is (2y+3)(y+5)
If you mean (1+2x)2, that is already factored.
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The expression x squared minus x can be simplified by combining like terms. This results in x^2 - x = x(x - 1), where x^2 represents x squared and x represents x to the first power. This expression represents a quadratic equation in factored form, where x and x-1 are the factors.
It is a quadratic expression and is (2y-1)(3y-4) when factored
The expression d squared plus 16d plus 48 can be factored as (d + 4)(d + 12).
It is a quadratic expression and is (2z+3)(6z-1) when factored
x squared +6x +5 is a quadratic expression that can be factored as (x+1)(x+5)
The expression x squared plus x can be simplified as x^2 + x. This is a quadratic expression with a leading coefficient of 1. It represents a polynomial with two terms, a quadratic term (x^2) and a linear term (x).
The expression x2 + 1x - 12 can be factored out as (x - 3)(x + 4)
The expression "a squared b squared minus c squared" can be mathematically represented as ( (ab)^2 - c^2 ). This can be factored using the difference of squares formula, which states that ( x^2 - y^2 = (x - y)(x + y) ). Thus, it can be factored as ( (ab - c)(ab + c) ).
It is a quadratic expression and can be factored into: (3x+1)(x+2)
This quadratic expression cannot be factored because its discriminant is less than zero