The angular velocities of three bodies in `SHM` are `omega_(1), omega_(2), omega_(3)` with their respective amplitudes as `A_(1),A_(2),A_(3)`. If all three bodies have same mass and maximum velocity then

The angular velocity of the body changes from omega_1 to omega_2 without applying torque but by changing its M.I. The ratio of initial radius of gyration to final radius of gyration is

The value of (frac{1+omega}{(omega)^2}}^3 is

If omega is the complex cube of unity, find the value of (1+ omega^2)^3

If the cube roots of unity are 1, omega , (omega)^2 , then the roots of the equation (x-2)^3+27 = 0 are

How will you connect three resistances of 4 ohms each to get 12 Omega , 6 Omega and 4/3 Omega respectively?

If n is a positive integer not a multiple of 3, then 1+(omega)^n+(omega)^(2n) =

The maximum acceleration of a body moving is SHM is a_(0) and maximum velocity is v_(0) . The amplitude is given by

If cube root of 1 is omega,then the value of (3+omega+3(omega)^2)^4 is

A body of mass 0.1 kg travelling with a velocity of 5 m/s, collides head-on with another body of mass 0.2 kg travelling in the same direction with a velocity of 1.2 m/s. If the two bodies stick together after collision, their common velocity is