For a particle moving along a straight line, the displacement x depends on time t as `x = alpha t^(3) +beta t^(2) +gamma t +delta`. The ratio of its initial acceleration to its initial velocity depends

For a particle moving along a straight line, the displacement x depends on time t as x=At^(3)+Bt^(2)+Ct+D . The ratio of its initial velocity to its initial acceleration depends on:

The displacement (x) of particle depends on time (t) as x = alpha t^(2) - beta t^(3) .

The position of a particle moving on a straight line depends on time t as x=(t+3)sin (2t)

Displacement equation for a particle moving in a straight line is x = at^(3)+betat^(2)+gammat+delta . The ratio of the initial acceleration to the initial velocity depends only on _____ .[ Fill in the blank]

For a particle moving in a straight line, the displacement of the particle at time t is given by S=t^(3)-6t^(2) +3t+7 What is the velocity of the particle when its acceleration is zero?

For a particle moving in a straight line, the displacement of the particle at time t is given by S=t^(3)-6t^(2) +3t+7 What is the velocity of the particle when its acceleration is zero?

For a particle moving in a straight line, the displacement of the particle at time t is given by S=t^(3)-6t^(2) +3t+7 What is the velocity of the particle when its acceleration is zero?