18 + 8x + x = = 18 + 9x = 9(2 + x) which is the factored form of the expression.
x^2+3x-18 (x+6) (x-3) = 0 x=-6 x=3 a= 1 r= -6 s=3
It is: 18(2+3) or simply as 90
If you mean -3(x+5) = 8x+18 then -3x-15 = 8x+18 and the value of x works out as -3
The expression is: ab-18
Without an equality sign the given expression remains as: 18-3c
x2+7x-18 = (x+9)(x-2) when factored
n2 + 11n + 18 = n2 + 2n + 9n + 18 = n(n+2) + 9(n+2) = (n+9)*(n+2)
xxxii or XXXII in Roman numerals is equivalent to 32 and 32+18 = 50 which is L as a roman numeral
It can be factored as 18(5-2x^2)
3(2y + 3)(y + 2)
8(p - 18)
It is (x+2)(x+9) when factored
To factor the expression 6x² - 18, you can start by finding the greatest common factor (GCF) of the terms. In this case, the GCF is indeed 6. So, you can factor 6 out of both terms: 6x² - 18 = 6(x² - 3) Now, you have factored out the 6, and you're left with the expression inside the parentheses, which is x² - 3. Eliott's area model represents the factored expression as follows: Width: 6 Length: x² - 3 So, the width of Eliott's area model is 6, and the length is x² - 3. This represents the factored form of the expression.
The expression 18 plus 6 plus 4b simplifies to 24 + 4b.
2(x - 3)(x - 3)
It is (x+9(x-2) when factored
18