Question

if angular velocity of a particle is doubled then its moment of inertia is?​

Answer 1

Answer:

Explanation:

As we know that  the Angular momentum is equal to the product of  moment of inertia and angular velocity

so,

L = Iω

so,

I =  L/ω

Answer 2

If the angular velocity of a particle is doubled then its moment of inertia doesn't change.

• Newton's mechanics state that the moment of inertia does not change.
• The answer remains the same as long as no body part approaches the speed of light.
• The inertial mass distribution and moment of inertia stay constant as long as the combined speed of all components is significantly lower than c.
• Principe collapses as soon as any component gets close to c. Then, to understand what occurs, greater relativity would be required.

#SPJ 3