Circular motion and work done by non conservative forces

In summary: This is a basic principle of conservation of energy. Therefore, if there are no non-conservative forces, there would be no loss in mechanical energy.
  • #1
henry3369
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Homework Statement


A ball of mass m is attached to a string of length L. It is being swung in a vertical circle with enough speed so that the string remains taut throughout the ball's motion.(Figure 1) Assume that the ball travels freely in this vertical circle with negligible loss of total mechanical energy. At the top and bottom of the vertical circle, the ball's speeds are vt and vb, and the corresponding tensions in the string are T⃗t and T⃗b. T⃗t and T⃗b have magnitudes Tt and Tb.

Express the difference in tension in terms of m and g. The quantities vt and vb should not appear in your final answer.

Homework Equations


Ki+Ui+WNC = Kf+Uf

The Attempt at a Solution


Ki+WNC = Kf+Uf
WNC = Kf+Uf - Ki
WNC = (1/2)mvt2 + mg2L - (1/2)mvb2Top:
Tt = (mvt2/L) - mg
Bottom:
Tb = mg - (mvb2/L)

I don't know what to do after this. I have work done by non conservative forces, but I'm not sure how to relate this to the difference in tensions.
 
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  • #2
There is no non-conservative force in this problem. As stated explicitly:
henry3369 said:
Assume that the ball travels freely in this vertical circle with negligible loss of total mechanical energy.

You should be able to use conservation of total energy (including the gravitational potential energy) in order to relate the velocities, and thus also the tensions.
 
  • #3
Orodruin said:
There is no non-conservative force in this problem. As stated explicitly:You should be able to use conservation of total energy (including the gravitational potential energy) in order to relate the velocities, and thus also the tensions.
Oh okay. I got the answer when the work done by non-conservative force = 0. If the problem didn't explicitly state that no mechanical energy is lost, could you still assume that WNC = 0?
 
  • #4
No, you would have to account for the additional work done on the system.
 
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  • #5
henry3369 said:
If the problem didn't explicitly state that no mechanical energy is lost, could you still assume that WNC = 0?
Yes, Because the loss in mechanical energy is equal to the work done by the non-conservative forces in an isolated systems
 
Last edited:

Related to Circular motion and work done by non conservative forces

1. What is circular motion?

Circular motion is the movement of an object along a circular path, where the object's distance from a fixed point remains constant. This type of motion is characterized by a constant speed and a changing direction, as the object continuously moves around the center of the circle.

2. What is the difference between conservative and non-conservative forces?

Conservative forces are those that do not dissipate energy and can be recovered completely, such as gravity or elastic forces. Non-conservative forces, on the other hand, are those that dissipate energy and cannot be recovered, such as friction or air resistance.

3. How does work done by non-conservative forces affect circular motion?

When non-conservative forces, such as friction, act on an object in circular motion, they can cause the object to lose energy and slow down. This is because the work done by these forces is converted into heat, sound, or other forms of energy that cannot be used to maintain the object's circular motion.

4. What is the relationship between work done by non-conservative forces and the conservation of energy?

The work done by non-conservative forces decreases the total mechanical energy of a system. This means that the energy lost due to these forces is not available for the object to perform work or maintain its motion. Therefore, the conservation of energy principle states that the total energy of a system remains constant, but it can be transformed into different forms.

5. How can we calculate the work done by non-conservative forces in circular motion?

The work done by non-conservative forces can be calculated using the formula W = ∫F * ds, where W is the work done, F is the non-conservative force, and ds is the displacement of the object. This integral sums up the work done by the force over the entire path of the object's circular motion.

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