The angular displacement of particle (in radian) is given by `theta=t^(2) + t `. Calculate angular velocity at t=2 second.

The angular displacement of a particle is given by theta=t^(3)+ t^(2)+ t+1 then, its angular velocity at t = 2sec is ……….. rad s^(-1)

The angular displacement of a particle is given by theta=t^(3)+ t^(2)+ t+1 then, its angular velocity at t = 2sec is ……….. rad s^(-1)

The angular displacement of a particle is given by theta =t^3 + t^2 + t +1 then, its angular velocity at t=2 sec is …… rad s^(-1)

A particle starts from rest and its angular displacement (in rad) is given theta=(t^2)/(20)+t/5 . Calculate the angular velocity at the end of t=4s .

A particle starts from rest and its angular displacement (in rad) is given theta=(t^2)/(20)+t/5 . Calculate the angular velocity at the end of t=4s .

A particle starts from rest and its angular displacement (in red) is given by theta = (t^2)/(20) +(t)/(5), calculate the angular velocity at the end of t =4 second.

The angular displacement of a body is given by theta = 2t^(2) + 5t -3 . Find the value of the angular velocity and angular acceleration when t = 2s.

The angular displacement of a particle is given by theta =t^3 + t^2 + t +1 then,the angular acceleration of the particle at t=2 sec is ……. rad s^(-2)

The displacement s of a particle at time t is is given by s=2 t^3 - 4 t^2 -5t. Then find the velocity at t=2 sec

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