How does kinetic energy change in circular motion?

AI Thread Summary
In circular motion, kinetic energy (KE) behaves differently depending on the orientation of the circle. For a horizontal circle, KE remains constant as speed is constant. In a vertical circle, gravitational potential energy (GPE) varies, with KE being maximum at the bottom and minimum at the top, maintaining constant total energy throughout the motion. The relationship between KE and GPE illustrates how energy is exchanged as the body moves through different points in the circle. Understanding these dynamics is crucial for analyzing motion in both horizontal and vertical planes.
Tangeton
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Could someone explain to me how the kinetic energy of a body moving in a circle is like? I got tempted it stays constant as the speed is constant but that turned out to be false.

I am interested in places where the body is at top, side and bottom and so on. So I'd like to also know what the KE will be at those points...

Thank you
 
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If the circle is in a horizontal plane then the KE will not change. If the circle is in a vertical plane then the gravitational potential at the top will be 2mgr (r is the radius) and zero at the bottom. The KE will vary in the opposite way - according to the gpe in any position, giving constant total energy throughout the rotation.
 
Tangeton said:
Could someone explain to me how the kinetic energy of a body moving in a circle is like? I got tempted it stays constant as the speed is constant but that turned out to be false.

I am interested in places where the body is at top, side and bottom and so on. So I'd like to also know what the KE will be at those points...

Thank you

Kinetic energy classically follows the following equation:
$$
KE = \frac{1}{2}mv^2
$$
Where m is mass, and v is velocity. Assuming it's vertical in a uniform gravitational field, the KE will be maximum at the bottom, and minimum at the top. At the left and right, it will be equal.
 
Cool thanks for both answers.
 
sophiecentaur said:
If the circle is in a vertical plane then the gravitational potential at the top will be 2mgr (r is the radius) and zero at the bottom. The KE will vary in the opposite way - according to the gpe in any position, giving constant total energy throughout the rotation.

That assumes the object isn't being forced to rotate at a constant speed. For example a pendulum trades off PE vs KE as it rotates but a DVD in a vertical DVD player doesn't.
 
True. Except that, by definition, the KE cannot change if the speed remains the same. But the OP didn't specify clearly enough - this will happen if one doesn't know the subject well. A common PF problem.
 
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