If a man has a velocity varying with time given as `v=3t^(2),v` is in `m//s` and `t` in `sec` then `:`

Find out the velocity of the man after `3 sec`.

If a man has a velocity varying with time given as v=3t^(2),v is in m//s and t in sec then : Find out his acceleration after 3 seconds :

If a man has a velocity varying with time given as v=3t^(2),v is in m//s and t in sec then : Find out his displacement after 2 seconds of his start :

If velocity v varies with time t as v=2t^(2) , then the plot between v and t^(2) will be given as :

A particle in moving in a straight line such that its velocity is given by v=12t-3t^(2) , where v is in m//s and t is in seconds. If at =0, the particle is at the origin, find the velocity at t=3 s .

A particle is rotates in a circular path of radius 54m with varying speed v=4t^(2) . Here v is in m//s and t inn second . Find angle between velocity and accelearation at t=3s .

A particle moves alo g a straight line and its velocity depends on time as v=6t-3t^(2) where 'v' is in m/sec and 't' is in sec. find average velocity and average speed forr first four seconds.

A particle is moving along x-axis such that its velocity varies with time according to v=(3m//s^(2))t-(2m//s^(3))t^(2) . Find the velocity at t = 1 s and average velocity of the particle for the interval t = 0 to t = 5 s.

The velocity v of a body moving along a straight line varies with time t as v=2t^(2)e^(-t) , where v is in m/s and t is in second. The acceleration of body is zero at t =

The acceleration of paticle varies with time as : a(t) = 3t^(2) +4 If the initial velocity of particle is 2 m//s , find the velocity of particle at t = 3sec .

Power supplied to a particle of mass 2kg varies with time as P=3t^(2)/2 watt,where t is in seconds If velocity of particle at t=0 is v=0 the velocity of particle at t=2 sec will be ?