The expression is: ab-18
a ⊕ b = ab' + a'b
It is: ab+10
Well, isn't that just a happy little math problem we have here? To factorise 4ab - 6ab, we can first factor out the common factor, which is 2ab. So, we have 2ab(2 - 3) or simply 2ab(-1). And just like that, you've simplified the expression beautifully!
Using the communative property of both addition and multiplication, 11+ab could be rewritten as ab+11, 11+ba or ba+11.
-5ab + 7ab -9ab + ab -2ab ... Let's simplify that a bit:ab(-5+7-9+1-2) = -8ab
1ab
55/5ab + 4/5ab = 59/5ab
ab
To simplify the expression 2a^2b^2 + 5ab^2 + 8a^2b^2 - 3ab^2, first combine like terms. The terms with a^2b^2 are 2a^2b^2 + 8a^2b^2 = 10a^2b^2. The terms with ab^2 are 5ab^2 - 3ab^2 = 2ab^2. Therefore, the simplified expression is 10a^2b^2 + 2ab^2.
11 + ab is the expression.
The expression is: ab-18
ab increased by 2
It can be simplified to -c-a-ac
AB is simplified to the furthest extent because you do not know what A or B is, and multiplication is one of the four simplest methods of math (along with addition, subtraction, and division).
None of them. (-2ab^3)(-3a^2b^5) = -ab^3*(2 + 3ab^2).
a ⊕ b = ab' + a'b