A particle is moving in x-y plane as shown in the figure. Angular velocity of the particle with respect to the origin is

A particle is moving parallel to x-axis as shown in the figure. The angular velocity of the particle about the origin is

Acceleration (a) -displacement (s) graph of a particle moving in a straight line is as shown in the figure. The initial velocity of the particle is zero. The v-s graph of the particle would be

A particle mass parallel to x-axis with constant velocity v as shown in the figure. The angular velocity of the particle about the origin O

Two particles are moving in different circles in same plane with different angular velocities as shown in figure. At t = 0, initial positions of particles A and B are shown by dots on the respective circles. Initial distance between particles is 1m. Particle A move anticlockwise in the first circle whereas B moves clockwise in the second circle. Angle described (rotated) by A and B in time 't' are theta_(A)=((pi)/2t) and theta_(B)=(pit) respectively. here theta is in radian and t is in second. Radius of each circle is shown in diagram. At time t=2 second, the angular velocity of the particle A with respect to the particle B is

A particle P is moving along a straight line as shown in the figure. During the motion of the particle from A to B the angular momentum of the particle about O

A particle describing circular motion as shown in figure. The velocity of particle in m s is-

A particle is moving with constant speed in a circle as shown in (Fig. 5.163). Find the angular velocity of the particle A with respect to fixed point B and C if angular velocity with respect to O is omega . .

A disc of mass M and radius R moves in the x-y plane as shown in the figure. The angular momentum of the disc at the instant shown is –

The displacement-time graph of a moving particle is shown in the figure. The velocity of the particle is zero at the point ______.

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 . .