n52

<-- Enter Terms

With the function that you entered of n52, plot points, determine the intercepts, domain, range

Since you did not specify a qualifying variable or function notation in your expression, we will assume y
y = n52

Determine function type:
Since we have a variable with no exponents, this is a linear function

Since this is a linear function, it is a direct variation equation: the constant of proportionality is

Now Plot points from 10 to -10
nPlug in xƒ(n) = n52Ordered Pair
-10(-10)52-10(-10, -10)
-9(-9)52-9(-9, -9)
-8(-8)52-8(-8, -8)
-7(-7)52-7(-7, -7)
-6(-6)52-6(-6, -6)
-5(-5)52-5(-5, -5)
-4(-4)52-4(-4, -4)
-3(-3)52-3(-3, -3)
-2(-2)52-2(-2, -2)
-1(-1)52-1(-1, -1)
0(0)520(0, 0)
1(1)521(1, 1)
2(2)522(2, 2)
3(3)523(3, 3)
4(4)524(4, 4)
5(5)525(5, 5)
6(6)526(6, 6)
7(7)527(7, 7)
8(8)528(8, 8)
9(9)529(9, 9)
10(10)5210(10, 10)

Determine the y-intercept:
The y-intercept is found when n is set to 0. From the grid above, our y-intercept is 0

Determine the n-intercept
The n-intercept is found when y is set to 0
The y-intercept is found when y is set to 0. From the grid above, our x-intercept is 0

Determine the domain of the function:
The domain represents all values of n that you can enter
The domain is (-∞, ∞) or All Real Numbers

Determine the range of the function:
The range is all the possible values of y or ƒ(n) that can exist
The range is (-∞, ∞) or All Real Numbers