In the Q. 122 what will be the velocity of the particle when it returns to the starting point?

In the Q.122 how much distance is covered by the particle in returning to the starting point?

What is the velocity of particle whose mass is double that of rest mass?

The fig. shows the v-t graph of a particle moving in straight line. Find the time when particle returns to the starting point.

A charge +Q is uniformly distributed over a thin ring with radius R . A negative point charge -Q and mass m starts from rest at a point far away from the centre of the ring and moves towards the centre. Find the velocity of this particle at the moment it passes through the centre of the ring .

In the figure, what will be the sign of the velocity of the point P_1 , which is the projection of the velocity of the reference particle P. P is moving in a circle of radius R in anti-clockwise direction. .

The position vector of a particle is given by vecr=vecr_(0) (1-at)t, where t is the time and a as well as vecr_(0) are constant. After what time the particle retursn to the starting point?

The figure shows the velocity time graph of the particle which moves along a straight line starting with velocity at 5 m//sec and coming to rest at t=30 s . Then :-

A particle is projected horizontally as shown from the rim of a large hemispherical bowl. The displacement of the particle when it strikes the bowl the first time is R. Find the velocity of the particle at that instant and the time taken.

Give the direction of velocity of SHM particle.

A particle of mass m is projected with speed u at an angle theta with the horizontal. Find the torque of the weight of the particle about the point of projection when the particle is at the highest point.