4a*2c=8ac
To simplify the expression (4a + 3(a^2)), you first distribute the (3) to (a^2), resulting in (4a + 3a^2). The expression cannot be simplified further since it consists of terms of different degrees. Therefore, the simplified form is (3a^2 + 4a).
It is an expression that can be simplified to: 4a+2
Let the five-digit number be represented as ( x ). We need to find ( x ) such that ( 4x ) equals the reverse of ( x ). We can express ( x ) as ( 10^4a + 10^3b + 10^2c + 10d + e ) (where ( a, b, c, d, e ) are the digits of ( x )), then ( 4x ) becomes ( 4(10^4a + 10^3b + 10^2c + 10d + e) ). After exploring possible five-digit values, the number ( 21978 ) satisfies the condition because ( 4 \times 21978 = 87912 ), which is indeed ( 21978 ) with its digits reversed.
American Association of Advertising Agencies: 4A's
They are terms of an algebraic expression that can be simplified to: 2b+2c
4a-2c = 2
If you mean: 2c+2+6c-4 then it is 8c-2 when simplified.
4a + 3c - 2b - c + a - b = 5a - 3b + 2c
It is 10 if a = 4 and c = 3
3(4a+b+2c)
3ab x 2c = 6abc
It is 4a2.
4a - 72a + 1 = -68a + 1 and that cannot be simplified further.
To simplify the expression (4a + 3(a^2)), you first distribute the (3) to (a^2), resulting in (4a + 3a^2). The expression cannot be simplified further since it consists of terms of different degrees. Therefore, the simplified form is (3a^2 + 4a).
It is 9
4a x 3
x2=(4a)(a) x=√4a2 x=2a The geometric mean of a and 4a is 2a