Power supplied to a particle of mass 4 kg varies with time as `P=(3t^(2))/(2)` watt. Here t in second. If velocity of particle at t = 0 is v = 0, the velocity of particle at time t = 2s will be

Power supplied to a mass 2 kg varies with time as P = (3t^(2))/(2) watt. Here t is in second . If velocity of particle at t = 0 is v = 0 , the velocity of particle at time t = 2s will be:

Power supplied to a mass 2 kg varies with time as P = (3t^(2))/(2) watt. Here t is in second . If velocity of partical at t = 0 is v = 0 , the velocity of partical at time t = 2s will be:

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 ?

Power supplied to a particle of mass 3 kg varies with time as p = 4t ^(3) watt, where t in time is seconds. If velocity of particle at t =0s is u=2 m//s. The velocity of particle at time t =3s will be :

Power supplied to a particle of mass 3 kg varies with time as p = 4t ^(3) watt, where t in time is seconds. If velocity of particle at t =0s is u=2 m//s. The velocity of particle at time t =3s will be :

Power supplied to a particle of mass 3 kg varies with time as p = 4t ^(3) watt, where t in time is seconds. If velocity of particle at t =0s is u=2 m//s. The velocity of particle at time t =3s will be :