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

Three particles describes circular path of radii r_(1), r_(2) and r_(3) with constant speed such that all the particles take same time to complete the revolution. If omega_(1), omega_(2), omega_(3) be the angular velocity v_(1), v_(2), v_(3) be linear velocities and a_(1), a_(2), a_(3) , be linear acceleration then which of the follwing is not correct?

Three particles describes circular path of radii r_(1),r_(2) and r_(3) with constant speed such that all the particles take same time to complete the revolution. If omega_(1),omega_(2),omega_(3) be the angular velocity v_(1),v_(2),v_(3) be linear velocities and a_(1),a_(2),a_(3) be linear acceleration than :

If a_(1),a_(2),a_(3) are the last three digits of 17^(256) respectively then the value of a_(2)-a_(1)-a_(3) is equal

Two waves of nearly same amplitude , same frequency travelling with same velocity are superimposing to give phenomenon of interference . If a_(1) and a_(2) be their respectively amplitudes , omega be the frequency for both , v be the velocity for both and Delta phi is the phase difference between the two waves then ,