A particle is moving with constant speed v along the line y = a in positive x -direction. Find magnitude of its angular velocity about orgine when its position makes an angle `theta` with x-axis.

A particle of mass m is moving with constant speed v on the line y=b in positive x-direction. Find its angular momentum about origin, when position coordinates of the particle are (a, b).

A particle is moving with constant speed v in xy plane as shown in figure. The magnitude of its angular velocity about point O is

A particle is moving with constant speed v along x - axis in positive direction. Find the angular velocity of the particle about the point (0, b), when position of the particle is (a, 0).

A particle is moving with a constant speed in a circular path. Find the ratio of average velocity to its instantaneous velocity when the particle rotates an angle theta =((pi)/(2)) .

A particle of mass m is moving with constant velocity v parallel to the x-axis as shown in the figure. Its angular momentum about origin O is

A particle of m=2kg is moving with constant speed 15m/s along a curved path y=x^(2) . Find its angular momentum about origin 0 when its velocity vector is at 53^(@) with x -axis (in kgm^(2)/s)

A particle is moving in the xy-plane with a constant velocity along a line parallel to the X-axis away from the origin. The magnitude of its angular momentum about the origin.

A particle of mass m is moving on the XY-plane along a straight line y = d, with constant velocity v. Its angular momentum about the origin

A particle is going parallel to x - axis with constant speed V at a distance 'a' from the axis . Find its angular velocity about an axis passing the origin O , at the instant when radial vector of the particle makes angle theta with the x - axis

A particle is moving along a circle with a uniform speed v . Find (a) change in the magnitude of velocity and (b) the magnitude of change in the velocity when it has rotated an angle theta . (0 lt theta lt 90^(@))