Translational vs. Rotational Kinetic Energy

In summary, when calculating the work done in bringing a resting cylinder to an angular speed of 8 rad/s, it is incorrect to find the corresponding tangential velocity at a point on the outer surface of the cylinder and use the translational work-kinetic energy theorem. This is because the tangential velocity is not uniform and using the rotational version with the moment of inertia and angular speed is a more efficient and accurate method.
  • #1
kash25
12
0
Hi,
Suppose I am trying to find the work done in bringing a resting cylinder to an angular speed of 8 rad/s.
Why is it INCORRECT to find the corresponding tangential velocity at a point on the outer surface of the cylinder (using angular speed * radius = tangential speed) and use the translational (0.5mv^2) work-kinetic energy theorem?
Why MUST we use the rotational version with I and angular speed?
Thank you.
 
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  • #2
Because there is rotational kinetic energy as well.
 
  • #3
kash25 said:
Why is it INCORRECT to find the corresponding tangential velocity at a point on the outer surface of the cylinder (using angular speed * radius = tangential speed) and use the translational (0.5mv^2) work-kinetic energy theorem?
Realize that the tangential velocity depends on the distance from the axis--the cylinder does not have a uniform tangential velocity. But if you're willing to add up the translational KE of each piece (dm) of the cylinder, that's just fine. (You'll get the same answer.)

KE = Σ½dm v² = Σ½dm r²ω² = ½(Σdm r²)ω² = ½Iω²
Why MUST we use the rotational version with I and angular speed?
It's just much easier. :wink:
 

1. What is the difference between translational and rotational kinetic energy?

Translational kinetic energy is the energy that an object possesses due to its movement from one point to another in a straight line, while rotational kinetic energy is the energy that an object possesses due to its rotational movement around an axis.

2. Which type of kinetic energy is more commonly observed in everyday life?

Translational kinetic energy is more commonly observed in everyday life, as we often see objects moving in a straight line, such as a car driving down the road or a ball rolling on the ground.

3. How is translational kinetic energy calculated?

Translational kinetic energy is calculated using the formula E = 1/2mv^2, where m is the mass of the object and v is its velocity.

4. How is rotational kinetic energy calculated?

Rotational kinetic energy is calculated using the formula E = 1/2Iω^2, where I is the moment of inertia of the object and ω is its angular velocity.

5. Can an object have both translational and rotational kinetic energy?

Yes, an object can have both translational and rotational kinetic energy at the same time. For example, a spinning top has both translational and rotational kinetic energy. The translational kinetic energy comes from its movement across the surface, while the rotational kinetic energy comes from its spinning motion around its axis.

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