If `S=6t^(2)-t^(3)`, then the body comes to rest after time `t=`

If S=9t-(t^(3))/(3) , the particle to rest after time t=

The displacement x of a body varies with time t as x= -2/3 t^(2)+16 t+2 . The body will come to rest after :

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

A particle is moving in a striaght line according as S=15t+6t^2-t^3 , then the time it will come to rest is

If a particle moves according to the law s=6t^(2)-(t^(3))/(2) , then the time at which it is momentarily at rest is

If S=16+(192) t-t^(3) , then distance travelled by the particle before coming to rest is

The equation of motion of a body executing S.H.M. is x= acos . (pi)/(3) ( t +1) . Find the time at which the body comes to rest for first time.

A particle starts from rest with a time varying acceleration a=(2t-4) . Here t is in second and a in m//s^(2) Particle comes to rest after a time t= ………… second

A time varying force F=6t-2t^(2)N , at t=0 starts acting on a body of mass 2kg initially at rest, where t is in second. The force is withdrawn just at the instant when the body comes to rest again. We can see that at t=0 the force F=0 . Now answer the following: Find the time when the velocity attained by the body is maximum.