KE constant in circular motion?

AI Thread Summary
In circular motion, kinetic energy remains constant when an object moves at a constant speed, despite the continuous change in velocity direction. This is because kinetic energy is dependent on the magnitude of velocity, which does not change, even though the object experiences radial acceleration. While the direction of the radius vector changes as the object moves around the circle, the length of the radius remains constant. The discussion clarifies that the acceleration is not constant in direction, but its magnitude remains the same. Overall, the kinetic energy stays constant due to the unchanging speed of the object in circular motion.
LanguageNerd
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I was just wondering how the kinetic energy in, for example, a car undergoing circular motion is constant. We know that it's constantly acceleration due to the constant change in velocity, but surely that means that in the KE equation (1/2mv^2) the velocity is constantly changing as well. This would mean that the KE is also constantly changing, no?

Thanks for any help in advance!
 
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Kinetic energy is a scalar quantity. It does not have a direction. So nothing will change. Since the magnitude of the velocity is constant, kinetic energy will stay the same.
 
But how can it be a scalar quantity when it contains a vector quantity?
 
LanguageNerd said:
But how can it be a scalar quantity when it contains a vector quantity?
the inner product of two vector quantity is certainly a scalar quantity..
$\vec{v}\cdot\vec{v}$
 
Brilliant. Thanks all!
 
A nit-pick… For a body going in a circle at constant speed, the acceleration isn't constant. Its magnitude is constant, but its direction keeps changing, because it's radial, and the particular radius keeps changing!
 
Philip Wood said:
and the particular radius keeps changing!
What do you mean by this? The radius of circular rotation is changing?
 
adjacent said:
What do you mean by this? The radius of circular rotation is changing?
Think of the radius as a vector from the center to a particular point on the circle. It changes as you move around the circle.

At any point, the radial acceleration points toward the center of the circle (opposite to the radius vector at that point). That direction changes as you move around the circle.
 
Doc Al said:
Think of the radius as a vector from the center to a particular point on the circle. It changes as you move around the circle.

At any point, the radial acceleration points toward the center of the circle (opposite to the radius vector at that point). That direction changes as you move around the circle.
Oh. I thought he said that the radius(Length) is changing :shy:
 
  • #10
He ought to have been clearer!
 
  • #11
Philip Wood said:
He ought to have been clearer!
:smile:
 

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