The velocity-versus-time graph for an object moving along the x-axis is shown. Find the average acceleration of the object in the time interval t=10s to t-30 s- A. -0.2 m/s² B. -20 m/s² C. +0.2 m/s² D. +2.0 m/s² 4. 2.0 a 4/A) 0.0 -20 <-4.0 10 20 30

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Q 17 please
Q17: The velocity-versus-time graph for an object moving along the x-axis is shown.
Find the average acceleration of the object
in the time interval t-10s to t-30 s.
A. -0.2 m/s²
B. -20 m/s²
C +0.2 m/s²
D. +2.0 m/s²
6.0
A. 4.49 s
B. 5.31 s
C. 2.86 s
D. 3.67 s
4.0 A
20-
0.0
A. -18.0 m/s
B. -14.0 m/s
C.-22.0 m/s
D.-26.0 m/s
-407
(M/N)
-60
10
Q18: Determine the time of the stone takes to returns to the height from
which it was thrown
20
Q19: Determine the velocity of the stone when it returns to the height from
which it was thrown
For this part, answer Q18. 019, and 020:
A stone of mass M thrown from the top of a building is given an initial velocity of 14.0 m/s
straight upward. The stone is launched 50.0 m above the ground, and the stone just misses the
edge of the roof on its way down as shown. The time the stone takes to move from point A to
point E is 4.93 s.
30
020: Suppose the mass of the ball is doubled and the same experiment is
repeated from the same building with exactly the same initial
velocity. How long does it take for the stone to reach point E?
A. 6.15s
B. 5.52 s
C. 6.81 s
D. 4.93 s
40
50.0 m
(1(x)
50
B
Transcribed Image Text:Q17: The velocity-versus-time graph for an object moving along the x-axis is shown. Find the average acceleration of the object in the time interval t-10s to t-30 s. A. -0.2 m/s² B. -20 m/s² C +0.2 m/s² D. +2.0 m/s² 6.0 A. 4.49 s B. 5.31 s C. 2.86 s D. 3.67 s 4.0 A 20- 0.0 A. -18.0 m/s B. -14.0 m/s C.-22.0 m/s D.-26.0 m/s -407 (M/N) -60 10 Q18: Determine the time of the stone takes to returns to the height from which it was thrown 20 Q19: Determine the velocity of the stone when it returns to the height from which it was thrown For this part, answer Q18. 019, and 020: A stone of mass M thrown from the top of a building is given an initial velocity of 14.0 m/s straight upward. The stone is launched 50.0 m above the ground, and the stone just misses the edge of the roof on its way down as shown. The time the stone takes to move from point A to point E is 4.93 s. 30 020: Suppose the mass of the ball is doubled and the same experiment is repeated from the same building with exactly the same initial velocity. How long does it take for the stone to reach point E? A. 6.15s B. 5.52 s C. 6.81 s D. 4.93 s 40 50.0 m (1(x) 50 B
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