The linear and angular acceleration of a particle are 10 m/`"sec"^(2)` and 5 rad/`sec^(2)` respectively it will be at a distance from the axis of rotation -

The maximum velocity and acceleration of a particle in S.H.M. are 100 cms/sec and 157 cm/ sec^2 respectively. The time period in seconds will be :

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

A disc rotates about its axis with a constant angular accelertion of 2 rad//s^(2) . Find the radial and tangential accelerations of a particle at a distance of 10 cm from the axis at the end of the fourth second after the disc starts rotating.

A disc rotates about its axis with a constant angular acceleration of 4rad/s^2 . Find the radia and tangential acceleration of a particle at a distance of 1 cm from the axis at the end of the first second after the disc starts rotating.

A particle executes simple harmonic motion with an angular velocity and maximum acceleration of 3.5rad//sec and 7.5 m//s^(2) respectively. The amplitude of oscillation

A body is rotating around a fixed axis with angular velocity 3 rad/s with constant angular acceleration of 1rad//s^(2) at some time. Find the magnitude of acceleration of a particle 5 m away from the axis after the body has turned by 90^(@) .

The initial velocity of the particle is 10m//sec and its retardation is 2m//sec^(2) . The distance moved by the particle in 5th second of its motion is

A particle is revolving in a circle of radius 1 m with an angular speed of 12 rad/s. At t = 0, it was subjected to a constant angular acceleration alpha and its angular speed increased to (480pi) rotation per minute (rpm) in 2 sec. Particle then continues to move with attained speed. Calculate (i) angular acceleration of the particle, (ii) tangential velocity of the particle as a function of time. (iii) acceleration of the particle at t = 0.5 second and at t = 3 second (iv) angular displacement at t = 3 second.