The linear and angular velocities of a b...

The linear and angular velocities of a body in rotatory motion are `3 ms^(-1)` and `6 rad//s` respectively. If the linear acceleration is `6 m//s^2` then its angular acceleration in `rad s^(-2)` is

Similar Questions

Explore conceptually related problems

A particle is moving along a circle of radius 3 m .If its centripetal acceleration is 3ms^(-2) , its angular velocity in rad s^(-1) is

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

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

If angular velocity of a rIgId body at 10 cm distance from rotational axis is 10 rad/s, then the linear velocity of particle is …... .

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 linear and angular velocities of a body in rotatory motion are `3 ms^(-1)` and `6 rad//s` respectively. If the linear acceleration is `6 m//s^2` then its angular acceleration in `rad s^(-2)` is

Similar Questions

Recommended Questions