Displacement `s` of a particle at time `t` is expressed as `s=1/2t^3-6tdot` Find the acceleration at the time when the velocity vanishes (i.e., velocity tends to zero).

Displacement s of a particle at time t is expressed as s=1/2t^3-6t . Find the acceleration at the time when the velocity vanishes (i.e., velocity tends to zero).

Displacement s of a particle at time t is expressed as s=1/2t^3-6t . Find the acceleration at the time when the velocity vanishes (i.e., velocity tends to zero).

Displacement s of a particle at time t is expressed as s=1/2t^3-6t . Find the acceleration at the time when the velocity vanishes (i.e., velocity tends to zero).

Displacement s of a particle at time t is expressed as s=1/2t^3-6t . Find the acceleration at the time when the velocity vanishes (i.e., velocity tends to zero).

Displacement s of a particle at time t is expressed as s = (1)/(2) t^(3) - 6t . Find the acceleration at the time when the velocity vanishes (i.e., velocity tends to zero).

Displacement s of a particle at time t is expressed as s=(1)/(2)t^(3)-6t. Find the acceleration at the time when the velocity vanishes (i.e.,velocity tends to zero).

The law of linear motion of a particle is given by s=1/3t^(3)-16t , the acceleration at the time when the velocity vanishes is

If s=(1)/(2)t^(3)-6t , then the find the acceleration at time when the velocity tends to zero.

The displacement of a particle in time 't' is given by S = t^(3) - t^(2) - 8t =18 . The acceleration of the particle when its velocity vanishes is