COLLEGE PHYSICS
2nd Edition
ISBN: 9781711470832
Author: OpenStax
Publisher: XANEDU
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Question
Chapter 2, Problem 66PE
To determine
The graph of velocity and acceleration of the particle.
Expert Solution & Answer
Answer to Problem 66PE
The graph of velocity and acceleration of the particle is shown in figure (2) and figure (3) respectively.
Explanation of Solution
Given:
The given figure is,
Figure (1)
Formula used:
The velocity of particle is given as,
The acceleration of particle is given as,
Calculation:
From figure (1),
| Position (m) | Time (s) |
The velocity of particle from
The velocity of particle from
The velocity of particle from
The velocity of particle from
The velocity of particle from
The velocity of particle from
The graph of velocity versus time of the particle is shown below.
Figure (2)
The acceleration of particle is calculated as,
From figure (2) it can be seen that the velocity suddenly changes at
The graph of acceleration versus time of the particle is shown below.
Figure (3)
Conclusion:
The graph of velocity and acceleration of the particle is shown in figure (2) and figure (3) respectively.
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Students have asked these similar questions
My question isn't how to solve the problem exactly. In fact, it's already been solved on this website. My question is about the acceleration. When I solve this problem myself, first I calculate the velocity by dividing 100m by 53s. I get 1.89m/s. Then I use that to find the acceleration using the equation vf = vi + at. That's 1.89/53 = 0.036m/s^2.
That's not correct. The correct way to find the acceleration is to us the equation d = 1/2 at^2 and solve that way without taking the intermediate step of finding the velocity. Doing it that way, the acceleration is 0.0712m/s^2.
My question is why you get a different result doing it the first way than you get doing it the second way.
I know the answer to the first part is 3 m/s but I don't know how to get the answer for the second part. What equation should I use/ how do I solve it?
A kangaroo can jump over an object 1.3 m high. Considering just its vertical motion, how long the
kangaroo is in the air (hint: consider up and down motions)? Write the answer in seconds.
of
on
Answer: 0.515
Chapter 2 Solutions
COLLEGE PHYSICS
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