Time period of oscillation of a plate

In summary, the conversation discusses the approach to a problem involving a plate oscillating with two strings attached to it. The conversation explores the concept of simplifying the set-up and considering the motion of the plate and its attachment points. It is determined that the plate is not rotating about its center of mass and that the radii of the arcs described by the attachment points will be the same. The time period of the oscillation is also discussed.
  • #1
Jahnavi
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102

Homework Statement



plate.png

Homework Equations

The Attempt at a Solution



I don't have much idea about how to approach this problem . Presence of two strings makes it quite difficult . Is it a compound pendulum ? But where is the pivot point about which the plate is oscillating .

About which point should I consider the torque exerted by the force due to gravity ?
 

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  • #2
Jahnavi said:
Presence of two strings makes it quite difficult
Not if you think about it in the right way.
Consider the motion the plate performs. Can you create a simpler set-up that would produce the same motion?
 
  • #3
haruspex said:
Consider the motion the plate performs. Can you create a simpler set-up that would produce the same motion?

The plate is not rotating about its Center of Mass as it oscillates .

It is something similar to a simple pendulum .But in the simple pendulum , the CM of the Bob is directly attached to the thread .Here CM is not attached to the strings .

Sorry . That is all I can think of .
 
  • #4
Jahnavi said:
The plate is not rotating about its Center of Mass as it oscillates .
Right. Can you think how that allows you to simplify its form?
Don't fret about the strings too much, just consider the motion of the plate.
 
  • #5
No . I have never done problem like this before .
 
  • #6
Jahnavi said:
No . I have never done problem like this before .
Take the two strings away and think what simpler mechanism would lead to the same motion of the plate.
 
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  • #7
Is it like a point mass located at the CM , but then where is the point about which it is oscillating ?
 
  • #8
Jahnavi said:
Is it like a point mass located at the CM
Right.
Jahnavi said:
where is the point about which it is oscillating ?
Compare its trajectory with that of one of the string attachment points in the problem as given.
 
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  • #9
haruspex said:
Compare its trajectory with that of one of the string attachment points in the problem as given.

The trajectories will be something like parallel curves .
 
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  • #10
Jahnavi said:
The trajectories will be something like parallel curves .
Are the radii the same?
 
  • #11
haruspex said:
Are the radii the same?

No .
 
  • #12
Jahnavi said:
No .
Sure?
Answer this then: what is the relative motion of the two points of attachment of the strings? What is the motion of any other point on the plate relative to them?
 
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  • #13
haruspex said:
Answer this then: what is the relative motion of the two points of attachment of the strings? What is the motion of any other point on the plate relative to them?

There is no relative velocity between any two points on the plates .
 
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  • #14
The way I can think of this problem, is to allow the strings to be stretched by a tiny bit, such that when the plate oscillates it does it on a horizontal line (parallel to the ground or the ceiling). The text says though that "strings remain tight" , does this mean that their length stays exactly L during the motion?
 
  • #15
Jahnavi said:
There is no relative velocity between any two points on the plates .
Right, they all execute the same arc together, just displaced by constant vectors. So what is the radius of the arc described by the mass centre?
 
  • #16
haruspex said:
So what is the radius of the arc described by the mass centre?

L .

So , I am thinking that we actually do not need mass center for this problem . Any point whose motion we know , will be useful . Here we know the motion of the end points of string . Similar motion will be there for each point on the body including the CM.

Right ?
 
  • #17
Jahnavi said:
L .

So , I am thinking that we actually do not need mass center for this problem . Any point whose motion we know , will be useful . Here we know the motion of the end points of string . Similar motion will be there for each point on the body including the CM.

Right ?
Yes.
So you have the time period?
 
  • #18
haruspex said:
So you have the time period?

Time period of point attached to the strings will be 2π√(L/g) . Same will be the time period of oscillation of the plate as a whole .Right ?
 
  • #19
Jahnavi said:
Time period of point attached to the strings will be 2π√(L/g) . Same will be the time period of oscillation of the plate as a whole .Right ?
Yes.
 
  • #20
Thanks !
 

Related to Time period of oscillation of a plate

What is the time period of oscillation of a plate?

The time period of oscillation of a plate is the amount of time it takes for the plate to complete one full cycle of oscillation, or movement back and forth.

How is the time period of oscillation of a plate calculated?

The time period of oscillation of a plate can be calculated using the formula T = 2π√(m/k), where T is the time period, m is the mass of the plate, and k is the spring constant of the plate's support.

What factors affect the time period of oscillation of a plate?

The time period of oscillation of a plate is affected by the mass of the plate, the spring constant of its support, and the amplitude (or maximum displacement) of the oscillation.

How does the shape of a plate affect its time period of oscillation?

The shape of a plate can affect its time period of oscillation by changing the distribution of its mass and the stiffness of its support. Generally, plates with larger surface areas and more uniform mass distribution will have longer time periods of oscillation.

Can the time period of oscillation of a plate be changed?

Yes, the time period of oscillation of a plate can be changed by altering its mass, the stiffness of its support, or the amplitude of its oscillation. It can also be affected by external factors such as air resistance or friction.

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