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An object oscillates up and down between y = +A and y= −A at the end of a stretched At what point(s) is the total potential energy (gravitational + elastic) minimum ? At what point(s) is the elastic potential energy maximum? At what point(s) is the elastic potential energy maximum? y= +A y= -A Y= 0 y= +A or Y= -A

An object oscillates up and down between y = +A and y= −A at the end of a stretched At what point(s) is the total potential energy (gravitational + elastic) minimum ? At what point(s) is the elastic potential energy maximum? At what point(s) is the elastic potential energy maximum? y= +A y= -A Y= 0 y= +A or Y= -A

Physics for Scientists and Engineers: Foundations and Connections
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN:9781133939146
Author:Katz, Debora M.
Publisher:Katz, Debora M.
Chapter16: Oscillations
Section: Chapter Questions
Problem 46PQ
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An object oscillates up and down between y = +A and y= −A at the end of a stretched 

At what point(s) is the total potential energy (gravitational + elastic) minimum ?

At what point(s) is the elastic potential energy maximum?

At what point(s) is the elastic potential energy maximum?

y= +A

y= -A

Y= 0

y= +A or Y= -A

 

 

 

 

Expert Solution
Introduction:

At the end of a stretched, it is a given that an object oscillates up and down between y = +A and y=-A.

It is required to find the points:

  • where the total potential energy (gravitational + elastic) minimum
  • where the elastic potential energy maximum

It is known that, the gravitational potential energy is calculated as:

Ug=mgh            (1)

Here m is the mass of the object, g is the acceleration due to gravity, and h is the height from the system's bottom point.

and the elastic potential energy is calculated as:

US=12ky2              (2)

Here k is the spring constant, and y is the length stretched or compressed by the body.

Therefore, the total potential energy is:

U=mgh+12ky2       (3)

We can express this problem with the following diagram:

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