For a moving body displacement y (in meter ) and time t (in second ) are related as `y = (2)/(3)t^(2)-16t+2.` When will the body stop?

A Particle of mass 2Kg executes k an SHM where displacement x ( in metre ) and time t ( in second) are related as x = 2 sin pi t, find ( I ) Frequency , (ii ) velocity at t= 1/4 second and (iii ) kinetic energy at t= 1/2 second

A particle is moving along a straight line OX. The displacement (x) from the point o and the time (t) taken are related as x = 40 +12t- t^(3) , where x is in metre and t in second. How far would the particle move before coming to rest ?

Displacement x in metre and time t in second are related as t=sqrt(x)+3 , for a particle of mass 1g moving in a straigh line. (i) what is the displacement when velocity is zero?

Displacement x in metre and time t in second are related as t=sqrt(x)+3 , for a particle of mass 1g moving in a straigh line. (ii) What is the work done in the first 6 s of motion ?

For a particle displacement (x) and time (t) are related by the following equation : x = (3t^(2)+2t+5) m. If time is expressed in second, find the initial velocity of the particle.

The relation between displacement & time is given by — y = -(2/3) t^2 + 16t + 2 . After how many seconds the body will be at rest?

Relation between distance covered s and time t of a moving particles is , s = 2t^(3)-4t^(2)+3t , What will be the velocity and acceleration after 3 s?

A car starts from a point P at time t = 0 seconds and stops at point Q. The distance x, in metres, covered by it, in t seconds is given by x=t^(2) (2-(t)/(3)) Find the time taken by it to reach Q and also find distance between P and Q.

A body of mass 3 kg acted upon by a constant force is displaced by 's' meter, given by the relation s=(1)/(3)t^(2) , where t is in second. Work done by the force in 2 seconds is

A particle moves in a straight line and its velocity v (in cm/s ) at time t (in second ) is 6t^(2) - 2t^(3) , find its acceleration at the end of 4 seconds.