The table below represents the velocity of a car as a function of time:
Time
(hour)
x Velocity
(miles/hours)
y
0 50
1 52
2 54
3 56
Part A: What is the y-intercept of the function, and what does this tell you about the car? (4 points)
Part B: Calculate the average rate of change of the function represented by the table between x = 1 to x = 3 hours, and tell what the average rate represents. (4 points)
Part C: What would be the domain of the function if the velocity of the car was measured until it reached 60 miles/hour and the car does not change motion? (2 points)
4 answers
How can a car go 50 mph in zero hours?
The table below represents the displacement of a horse from its barn as a function of time:
hours)
x Displacement
from barn
(feet)
y
0 8
1 58
2 108
3 158
4 208
Part A: What is the y-intercept of the function, and what does this tell you about the horse? (4 points)
Part B: Calculate the average rate of change of the function represented by the table between x = 1 to x = 3 hours, and tell what the average rate represents. (4 points)
Part C: What would be the domain of the function if the horse continued to walk at this rate until it traveled 508 feet from the barn? (2 points)
hours)
x Displacement
from barn
(feet)
y
0 8
1 58
2 108
3 158
4 208
Part A: What is the y-intercept of the function, and what does this tell you about the horse? (4 points)
Part B: Calculate the average rate of change of the function represented by the table between x = 1 to x = 3 hours, and tell what the average rate represents. (4 points)
Part C: What would be the domain of the function if the horse continued to walk at this rate until it traveled 508 feet from the barn? (2 points)
yuh stink at math bro.
Deftones-change