Option A is correct.
4n + 8 expression which has a value that is equivalent to 5n+13 when n = -5
Step-by-step explanation:
Given the expression: ![5n + 13](/tpl/images/0465/7559/903c6.png)
If n = -5
then, by substituting in given expression we get;
![5(-5)+13 = -25+13 = -12](/tpl/images/0465/7559/2b66b.png)
Option A:
4n + 8
Substitute the value of n = -5 we have;
![4(-5) + 8 = -20 + 8 = -12](/tpl/images/0465/7559/a8b55.png)
Option B:
2n + 2
then;
2(-5) + 2 = -10 + 2 = -8
Option C :
![n^2+13](/tpl/images/0465/7559/99158.png)
then;
![(-5)^2+13 = 25 + 13 = 38](/tpl/images/0465/7559/e40a0.png)
Option D:
n + 8
then;
-5 + 8 = 3
Therefore, only option A has expression which has a value that is equivalent to 5n+13 when n = -5