13Suppose that the water level of a river is 45 feet after 3 days of no rain and 10 feet after 10 days of no rainThe river was 60 feet before the drought began (points)

a) The rate of change (slope) for this scenario can be calculated by finding the change in the y-coordinate (water level) divided by the change in the x-coordinate (days).

Change in water level = 45 ft - 10 ft = 35 ft
Change in days = 3 days - 10 days = -7 days (negative because the days are decreasing)

Rate of change (slope) = Change in water level / Change in days
= 35 ft / (-7 days)
= -5 ft/day

b) The y-intercept for this scenario can be determined by looking at the initial water level, which was 60 feet.

The y-intercept is the point where the line crosses the y-axis, which corresponds to the value of the dependent variable (water level) when the independent variable (days) is zero. In this case, when there are zero days of no rain, the water level is 60 feet.

Therefore, the y-intercept is 60.

c) The equation for this scenario in slope-intercept form is y = mx + b, where m represents the slope and b represents the y-intercept.

Plugging in the values we found:
y = -5x + 60

d) To convert the equation to standard form, we need to rearrange the equation to have the x and y terms on the same side and the constant term on the other side of the equation.

Starting with the equation in slope-intercept form:
y = -5x + 60

Rearranging to move the x term to the left side:
5x + y = 60

Switching the sides to have the constant term on the right side:
5x + y - 60 = 0

So, the equation in standard form is:
5x + y - 60 = 0