One of the two equations listed in each problem matches the graph. Determine which equation is represented by the graph. Explain how you know your answer is correct

To determine which equation is represented by the graph, we can compare the given equation with the equation of the line in slope-intercept form (y = mx + b).

The equation 6x + 2y = -4 can be rearranged to get y = -3x - 2. This equation has a slope of -3 and a y-intercept of -2.

The equation y = ⅓(x - 9) + 1 can be simplified as y = ⅓x - 2 + 1, which further simplifies to y = ⅓x - 1. This equation also has a slope of ⅓ and a y-intercept of -1.

Comparing the two equations, we can see that they have the same slope (both -3 and ⅓ can be written as a fraction -3/1 and ⅓/1), but different y-intercepts (-2 and -1). Therefore, the equation 6x + 2y = -4 is represented by the graph.

We can also verify our answer by substituting some points from the graph into the equation. Let's choose the point (3, -5):

For equation 6x + 2y = -4:
6(3) + 2(-5) = 18 - 10 = 8, not equal to -4

For equation y = ⅓(x - 9) + 1:
⅓(3 - 9) + 1 = ⅓(-6) + 1 = -2 + 1 = -1, equal to -1

Since the point (3, -5) satisfies the equation y = ⅓(x - 9) + 1 but not the equation 6x + 2y = -4, we can conclude that the equation represented by the graph is y = ⅓(x - 9) + 1.