Given `V_("CM")=2m/s, m= 2kg,R = 4m`

Find angular momentum of ring about origin if it is in pure rolling

A particle having mass 2 kg is moving along straight line 3 x + 4 y = 5 with speed 8m//s . Find angular momentum of the particle about origin, x and y are in meters.

A particle having mass 2 kg is moving with velcoity (2 hat(i) + 3 hat(j))m//s . Find angular momentum of the particle about origin when it is at (1, 1, 0).

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 bicycle wheel (ring) of mass 1kg and radius 2m is attached at the end of a long rod of mass 1kg and length 3m, with the axis of wheel perpendicular to the rod. The rod is rotating counter clockwise as seen from above about its other end with an angular speed 0.5 rad/s. If wheel is also rotating about its axis with same angular speed in counter clock wise sense as seen from above. Find angular momentum of the system (in kg-m/s) about the axis passing through one end of rod. (Neglect mass of spokes and mass of rod connecting end of length 3m and centre of ring).

A particle of mss m=2 kg moves with velocity vecv=2veci+2vecj-veck .Find its angular momentum about the origin when its position vector is vecr=veci+vecj

A thin ring of mass m and radius R is in pure rolling over a horizontal surface. If v_0 is the velocity of the centre of mass of the ring, then the angular momentum of the ring about the point of contact is

A thin ring of mass m and radius R is in pure rolling over a horizontal surface. If v_0 is the velocity of the centre of mass of the ring, then the angular momentum of the ring about the point of contact is

A solid sphere of mass M and radius R is in pure rolling as shown in figure. The angular momentum of the sphere about the origin is (linear velocity of centre of mass is v_0 , in positive x-direction)

A particle of mass 1 kg is moving alogn the line y=x+2 with speed 2m//sec . The magnitude of angular momentum of the particle about the origin is