The linear speed of a particle moving in...

The linear speed of a particle moving in a circle of radius `R` varies with time as `v = v_0 - kt`, where `k` is a positive constant. At what time the magnitudes of angular velocity and angular acceleration will be equal ?

Similar Questions

Explore conceptually related problems

The speed (v) of a particle moving in a circle of radius R varies with distance s as v=ks where k is a positive constant.Calculate the total acceleration of the particle

The speed of a particle moving in a circle of radius r=2m varies with time t as v=t^(2) , where t is in second and v in m//s . Find the radial, tangential and net acceleration at t=2s .

A body moves with constant angular velocity on a circle. Magnitude of angular acceleration

The initial velocity of a particle is u and the acceleration is given by (kt), where k is a positive constant. The distance travelled in time t is:

The magnitude of displacement of a particle moving in a circle of radius a with constant angular speed omega varries with time t is

The linear speed of a particle moving in a circle of radius `R` varies with time as `v = v_0 - kt`, where `k` is a positive constant. At what time the magnitudes of angular velocity and angular acceleration will be equal ?

Similar Questions

Recommended Questions