In the fig shown, the velocity of each particle at the end of 4 sec will be -`

In the above question, if at the end of 4 sec, the string be cut, the position of each particle in next 2 seconds will respectively be -

The variation of velocity of a particle executing SHM with time is shown is fig. The velocity of the particle when a phase change of (pi)/(6) takes place from the instant it is at one of the extreme positions will be

Acceleration - time graph of a particle moving in a straight line is shown in figure. Velocity of particle at time t = 0 is 2 ms^(-1) . Find velocity at the end of fourth second.

If displacement of particle is s=(t^(3))/(3)-(t^(2))/(2)-(t)/(2)+6 , then velocity of the particle at t=4 sec. is

Accleration-time graph of a particle moving in a straight line is as shown in Fig. Velocity of particle at time t=0 is 2 m//s. Find the velocity at the end of fourth second.

Three particles with masses 10, 20 and 40gm are moving with velocities 10hati, 10hatj and 10hatk m/sec respectively. If due to some interaction the first particle comes to rest and the velocity of second becomes ) (3hati+4hatj) m/sec. then the velocity of third particle after the interaction is-

The velocity of a particle at an instant is 10m/s. After 5sec, the velocity of the particle is 20m/s. Find the velocity at 3 seconds before from the instant when velocity of a particle is 10m/s.

The acceleration - time graph of a particle is as shown in figure Initial velocity of particle is 10 m//s Displacement of the particle (in m) at the end of 8 sec is ___ Round off to nearest integer.

Particles A and B move with constant and equal speeds in a circle as shown in (Fig. 5.164). Find the angular velocity of the particle A with respect to B , if the angular velocity of particle A w.r.t. O is omega . .