Expand 6(x + 1) .(1 point)
To expand 6(x + 1), we need to distribute the 6 to both terms inside the parentheses.
6(x + 1) = 6 * x + 6 * 1
Simplifying further:
= 6x + 6
To expand 4(3z - 7), we need to distribute the 4 to both terms inside the parentheses.
4(3z - 7) = 4 * 3z - 4 * 7
Simplifying further:
= 12z - 28
To expand -5(2q + 8), we need to distribute the -5 to both terms inside the parentheses.
-5(2q + 8) = -5 * 2q - 5 * 8
Simplifying further:
= -10q - 40
Expand 4(3z − 7) .(1 point)
Expand −5(2q + 8) .(1 point)
Expand 710(5d+6) .(1 point)
To expand 710(5d + 6), we need to distribute the 710 to both terms inside the parentheses.
710(5d + 6) = 710 * 5d + 710 * 6
Simplifying further:
= 3550d + 4260
Expand −5/8(3p+8) .(1 point)
To expand -5/8(3p + 8), we need to distribute the -5/8 to both terms inside the parentheses.
-5/8(3p + 8) = -5/8 * 3p - 5/8 * 8
Simplifying further:
= (-15/8)p - 40/8
= -15/8p - 5
To expand 6(x + 1), you can use the distributive property, which states that a(b + c) is equal to ab + ac.
In this case, you can distribute the 6 to both the x and the 1.
6(x + 1) = 6 * x + 6 * 1
Multiplying 6 by x gives you 6x, and multiplying 6 by 1 gives you 6.
Therefore, the expanded form of 6(x + 1) is 6x + 6.