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 angular displacement of a particle is 24 rad in 10 seconds. Calculate its angular velocity.

The angular displacement of a particle is 24 rad in 10 seconds. Calculate its angular velocity.

A wheel starts rotating with an-angular velocity of 2 rad/s. If it rotates with a constant angular acceleration 4 "rad/s"^2 what angle does the wheel rotate through in 2.0 s ? What is the angular speed, after 2.0 s.

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

A particle is moving along a circle and its linear velocity is 0.5ms when its angular velocity is 2.5rads^(-1) . Its tangential acceleration is 0.2ms^(-2) then its angular acceleration is

Two particles A and B move on a circle Initially, particles A and B are diagonally opposite to each other. Particle A moves with angular velocity pi rad s^-1 and angular acceleration pi//2 rad s^-2 and particle B moves with constant angular velocity 2 pi rad s^-2 . Find the time after which both the particlsd A nad B will collide.

Starting from rest a wheel rotates with uniform angular acceleration 2pirads^(-2) . After 4s, if the angular acceleration ceases to act, its angular displacement in the next 4s is

A particle moving with an angular velocity of 200 rad s^(-1) and start de accelerating at a rate of 2 rad s^(-2) . Calculate the time in which it will come to rest.

The angular velocity of a flywheel change from 6 rad s^(-1) to 18 rad s^(-1) in 6 seconds. Calculate its angular acceleration.

The angular velocity of a flywheel change from 6 rad s^(-1) to 18 rad s^(-1) in 6 seconds. Calculate its angular acceleration.