Calculate the instantaneous power of a body rotating with angular velocity of `20rad//s^(-1)`, when an external torque of `5 Nm` is applied to it.
Hint : `P=tau omega`.

Calculate the instantaneous power of a body rotating with angular velocity of 20rad//s^(-2) , when an external torque of 5 Nm is applied to it. Hint : P=tau omega .

Calculate the instantenous power of a wheel rotating with an angular velocity of 20"rad"//s , when a torque of 10Nm is applied to it.

Calculate the angular velocity with which a wheel is rotating. If its instanteous power is 500W , and an external torque of 50Nm is applied to it. Hint : P=tau omega

The moment of an inertia about an axis of a body which is rotating with angular velocity "1rad s"^(-1) is numerically equal to

A fly wheel of M.I. 6xx10^(-2) kgm^(2) is rotating with an angular velocity of 20 rad s^(-1) . The torque required to bring it to rest in 4s is

A particle is moving in a circular orbit of radius r_(1) with an angular velocity omega_(1) It jumps to another circular orbit of radius r_(2) and attains an angular velocity omega_(2) . If r_(2)= 0.5 r_(1) , and if no external torque is applied to the system, then the new angular velocity omega_(2) is given by

A wheel is rotating with an angular velocity of 3 rad s^(-1) . If the angular acceleration is 2 rad s^(-1) then calculate its angular velocity after 5 second.

The moment of inertia of a body moving with angular velocity omega decreases from l to (l)/(3) without any external torque. Calculate the new angular velocity of the body.

Compute the angular acceleration of a wheel having moment of inertia 20kgm^(2) , when a torque of 10Nm is applied on the wheel.

A fly wheel is rotating about its own axis at an angular velocity 11 rad s^(-1) , its angular velocity in revolation per minute is