66 factored to get -1 = 65
16m-28m factored = -12
273-8 factored = 265
It can be factored as the SQUARE OF A BINOMIAL
3y-6y in factored form = -3
27-y3 factored completely = 24
Factored loads are inflated loads. Each type of load has a specific safety factor (load factor) added. Un-factored loads are not inflated.
We factored many suggestions into the equation.
If a number cannot be factored it is a prime number.
You can convert standard form to factored form by using a factoring tree to convert to the long-form factored format. You can also work backwards to convert from factored to standard form.
x2 + 1 can't be factored in the real numbers. If complex numbers are acceptable, it can be factored as (x + i)(x - i).
a3-4a = a(a2-4) when factored
You can't know if a general polynomial is in factored form.
When the expression is broken down into its prime factors it is factored completely.
It is (x-1)(x-1) when factored
If you mean: 5x+35 then when factored it is 5(x+7)
It is (x-1)(x-8) when factored
If you mean 4y+10 then it is 2(2y+5) when factored
2x + 3 can be factored as follows: 2(x + 1.5)
If you mean: 2x2-11x+5 then it is (2x-1)(x-5) when factored
x2-6x+8 = (x-2)(x-4) when factored
This quadratic expression can't be factored because its discriminant is less than zero.
2a2+33a+136 = (2a+17)(a+8) when factored
A completely factored form is one which is composed of product of factors and can't be factorized further. Let us consider two examples: x2 - 4x + 4 is not a factored form because it can be factored as (x - 2)(x - 2). (x +1)(x2 - 4x + 4) is also not a factored form because x2 - 4x + 4 can be factored further as (x - 2)(x - 2). So, the completely factored form is (x + 1)(x - 2)(x - 2).