Dividing all terms by 2 gives: 6x2+7x+2 = (2x+1)(3x+2) when factored
12x2-23x+10 = (3x-2)(4x-5) when factored
3X3 + 12X2 + 9X 3X(X2 + 4X + 3) 3X(X + 1)(X + 3) --------------------------------far as can be factored and you should see X intercepts of original function
That expression can not be factored.
No.
The expression (12x + 24) can be factored by taking out the greatest common factor, which is 12. This gives us (12(x + 2)). Therefore, the factored form of (12x + 24) is (12(x + 2)).
18 + 8x + x = = 18 + 9x = 9(2 + x) which is the factored form of the expression.
12x2-23x+10 = (3x-2)(4x-5) when factored
It is 6x(2x+5) when factored
It's the general form of a quadratic expression and it can be factored providing its discriminant is not less than zero.
3X3 + 12X2 + 9X 3X(X2 + 4X + 3) 3X(X + 1)(X + 3) --------------------------------far as can be factored and you should see X intercepts of original function
That expression can not be factored.
No.
The expression (12x + 24) can be factored by taking out the greatest common factor, which is 12. This gives us (12(x + 2)). Therefore, the factored form of (12x + 24) is (12(x + 2)).
The expression has no rational factors.
When factored it is: 12(A+b)
2(a+b) is 2a plus 2b in factored form.
This expression can not be factored. It is already in it's simplest state.