The angular velocity of a particle is given by `omega=1.5t-3t^(2)+2`, Find the time when its angular acceleration becomes zero.

If angular velocity of a disc depends an angle rotated theta as omega=theta^(2)+2theta , then its angular acceleration alpha is :

The velocity of a particle is given by v=(5t^(2)-2t+9)m//s where t is time in seconds. Find its acceleration at t=4 second.

The velocity of a particle is given by v=(5t^(2)-6t+5)m//s where t is time in seconds. Find its acceleration at t=4 second.

The velocity of a particle is given by v=(2t^(2)-4t+3)m//s where t is time in seconds. Find its acceleration at t=2 second.

If angular velocity of a disc depends an angle rotated theta as omega=theta^(2)+2theta , then its angular acceleration alpha at theta=1 rad is :

The velocity of a particle is given by v=(4t^(2)-4t+5)m//s where t is time in seconds. Find its acceleration at t=4 second.

If angular velocity of a disc depends an angle rotated theta as omega=theta^(2)+2theta , then its angular acceleration alpha at theta=2 rad is :

If angular velocity of a disc depends an angle rotated theta as omega=theta^(3)+2theta^2 , then its angular acceleration alpha at theta=1 rad is :

If angular velocity of a disc depends an angle rotated theta as omega=theta^(3)+2theta^2+2theta , then its angular acceleration alpha is

If s=2t^(3)+3t^(2)+2t+8 then find time at which acceleration is zero.