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

If S=2+3t-t^(2)+t^(3) , then velocity when acceleration is zero is

A particle moves along the x-axis obeying the equation x=t(t-1)(t-2) , where x is in meter and t is in second a. Find the initial velocity of the particle. b. Find the initial acceleration of the particle. c. Find the time when the displacement of the particle is zero. d. Find the displacement when the velocity of the particle is zero. e. Find the acceleration of the particle when its velocity is zero.

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

If S=t^(3)-3t^(2)+5 , then acceleration, when velocity becomes zero is

5.The displacement s of a particle at a time t is given by s=2t-5t+4t-3, find (i) the time when the acceleration is 14 ft/sec (ii) the velocity and the displacement at that time.

If displacement of particle is s=(t^(3))/(3)-(t^(2))/(2)-(t)/(2)+6 , then acceleration of the particle when its velocity is (3)/(2) , is

The motion of a particle is described as S =2-3t+4t^(3) what is the acceleration of the paricle at the point where its velocity is zero ?