Two beads each of mass `m` are welded at the ends of two light rigid rods each of length `l`. if the pivots are smooth, find the ratio of translational and rotational kinetic energy of system.

Two beads each of mass m are fixed on a light rigid rod of length 2l which is free to rotate in a horizontal plane. The bead on the far end is given some velocity upsilon as shown in the figure. If K_(cm) represents the kinetic energy of the centre of mass of the system and K_(R) represents the rotational kinetic energy of the system, then what is the value of (K_(cm))/(K_(R)) ?

Two beads each of mass m are fixed on a light rigid rod of length 2l which is free to rotate in a horizontal plane. The bead on the far end is given some velocity upsilon as shown in the figure. If K_(cm) represents the kinetic energy of the centre of mass of the system and K_(R) represents the rotational kinetic energy of the system, then what is the value of (K_(cm))/(K_(R)) ?

Two particles each of mass m and charge q are attached to the two ends of a light rigid rod of length 2R. The rod is rotated at constant angular speed about a perpendicular axis passing through its centre. The ratio of the magnitudes of the magnetic moment of the system and its angular momentum about the centre of the rod is

Two particles , each of mass m and charge q , are attached to the two ends of a light rigid rod of length 2 R . The rod is rotated at constant angular speed about a perpendicular axis passing through its centre. The ratio of the magnitudes of the magnetic moment of the system and its angular momentum about the centre of the rod is

Two particles , each of mass m and charge q , are attached to the two ends of a light rigid rod of length 2 R . The rod is rotated at constant angular speed about a perpendicular axis passing through its centre. The ratio of the magnitudes of the magnetic moment of the system and its angular momentum about the centre of the rod is

Two particles , each of mass m and charge q, are attached to the two ends of a light rigid rod of length 2 R . The rod is rotated at constant angular speed about a perpendicular axis passing through its centre. The ratio of the magnitudes of the magnetic moment of the system and its angular momentum about the centre of the rod