To factor the expression (6ab + 3ac), first identify the common factors in both terms. Here, the common factor is (3a). Factoring this out gives you (3a(2b + c)). Thus, the expression (6ab + 3ac) can be rewritten as (3a(2b + c)).
The expression (3a \times 2b) can be simplified by multiplying the coefficients and the variables separately. The coefficients 3 and 2 multiply to give 6, while the variables (a) and (b) remain as they are. Therefore, the simplified expression is (6ab).
0.3333
2a2 x 3a-3 = (2 x 3)a(2 + -3) = 6a-1
The expression (3a \times a \times b) can be simplified by multiplying the coefficients and combining like terms. This results in (3a^2b), where (3) is the coefficient, (a) is squared, and (b) remains as is. Thus, the final answer is (3a^2b).
3a2b is the simplest formImproved Answer:-3a x 2b = 6ab when simplified
3a
To factor the expression (6ab + 3ac), first identify the common factors in both terms. Here, the common factor is (3a). Factoring this out gives you (3a(2b + c)). Thus, the expression (6ab + 3ac) can be rewritten as (3a(2b + c)).
-2
The factors of 6Ab^2 are the numbers or variables that can be multiplied together to result in 6Ab^2. In this case, the factors of 6Ab^2 are 1, 2, 3, 6, A, B, A^2, B^2, AB, 2A, 3A, 6A, 2B, and 3B. These factors can be combined in various ways to represent the original expression 6Ab^2.
Since 3a is a factor of 6ab, it is automatically the GCF.
2m x 4n
2,3,2a,3a,3b,2b,3b^2,2b^2
24ab
2a x 3b = 6ab
81(a^4)
Ah, let's take a moment to appreciate the beauty of algebra. To factorise 6ab - 9ac, we can first factor out the greatest common factor, which is 3a. This leaves us with 3a(2b - 3c), where 2b - 3c is the factored expression. Just like painting a happy little tree, we've simplified our expression with a few gentle brushstrokes.