Two bodies with moment of inertia `I_1` and `I_2 (I_1 gt I_2)` have equal angular momenta. If their kinetic energy of rotation are `E_1` and `E_2` respectively, then.

Two bodies with moments of inertia I_2 and I_2 (I_1 > I_2) have equal angular momentum. Then kinetic energy of first body Ej and kinetic energy of second body E2 are related as

Two rotating bodies A and B of masses m and 2m with moments of inertia I_A and I_B (I_B gt I_A) have equal kinetic energy of rotation. If L_A and L_b be their angular momenta respectively, then

Two rotating bodies A and B of masses m and 2 m with moments of inertia I_A and I_B (I_B gt I_A) have equal kinetic energy of rotation. If L_A and L_B are their angular momenta respectively, then.

Two bodies with moment of inertia l_(1) and l_(2) (l_(1) gt l_(2)) have equal angular momentum. If E_(1) and E_(2) are the rotational kinetic energies, then

Two bodies with moment of inertia l_(1) and l_(2) (l_(1) gt l_(2)) have equal angular momentum. If E_(1) and E_(2) are the rotational kinetic energies, then

Two bodies having moments of inertia I_(1) and I_2 (I_(1) gt I_(2)) have same angular momentum. If E_(1) and E_(2) are their rotational kinetic energies,

Two rotating bodies A and B of masses m and 2m with moments of inertia I_(A) and I_(B) (I_(B) gt I_(A)) have equal kinetic energy of rotation. If L_(A) and L_(B) be their angular momenta respectively, then

Two rotating bodies A and B of masses m and 2m with moments of inertia I_(A) and I_(B) (I_(B) gt I_(A)) have equal kinetic energy of rotation. If L_(A) and L_(B) be their angular momenta respectively, then