Solve all parts Using your definition of the average acceleration, study the velocity versus time graphbelow and attempt to answer the corresponding questions.Velocity, v (m/s)15.010.05.00 5.0(a)Find the acceleration for leg (3).(1)10.0(2)BHow far did the object travel during leg (4)?(3)CD15.0 20.0 25.0Time, ! (s)Are there any legs during which the acceleration is zero? If so, what are they?During which leg is the acceleration the largest? What is the acceleration during thisleg?How far did the object travel during the total trip?30.0Does the object ever speed up? Slow down? If so, during which legs?What does the position graph look like for legs (2) and (4)?

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Using your definition of the average acceleration, study the velocity versus time graph below and attempt to answer the corresponding questions. Velocity, v (m/s) 15.0 10.0 5.0 5.0 (a) Find the acceleration for leg (3). A (2) B How far did the object travel during leg (4)? (3) 10.0 15.0 20.0 25.0 30.0 Time, t(s) Are there any legs during which the acceleration is zero? If so, what are they? D During which leg is the acceleration the largest? What is the acceleration during this leg? Does the object ever speed up? Slow down? If so, during which legs? How far did the object travel during the total trip? What does the position graph look like for legs (2) and (4)?

Using your definition of the average acceleration, study the velocity versus time graph below and attempt to answer the corresponding questions. Velocity, v (m/s) 15.0 10.0 5.0 5.0 (a) Find the acceleration for leg (3). A (2) B How far did the object travel during leg (4)? (3) 10.0 15.0 20.0 25.0 30.0 Time, t(s) Are there any legs during which the acceleration is zero? If so, what are they? D During which leg is the acceleration the largest? What is the acceleration during this leg? Does the object ever speed up? Slow down? If so, during which legs? How far did the object travel during the total trip? What does the position graph look like for legs (2) and (4)?

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Question

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Solve all parts

Using your definition of the average acceleration, study the velocity versus time graph
below and attempt to answer the corresponding questions.
Velocity, v (m/s)
15.0
10.0
5.0
0 5.0
(a)
Find the acceleration for leg (3).
(1)
10.0
(2)
B
How far did the object travel during leg (4)?
(3)
CD
15.0 20.0 25.0
Time, ! (s)
Are there any legs during which the acceleration is zero? If so, what are they?
During which leg is the acceleration the largest? What is the acceleration during this
leg?
How far did the object travel during the total trip?
30.0
Does the object ever speed up? Slow down? If so, during which legs?
What does the position graph look like for legs (2) and (4)?

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