Two particles are executing simple harmonic of the same amplitude (A) and frequency `omega` along the x-axis . Their mean position is separated by distance `X_(0)(X_(0)gtA). If the maximum separation between them is (X_(0)+A), the phase difference between their motion is:

Two particles are executing simple harmonic of the same amplitude (A) and frequency omega along the x-axis . Their mean position is separated by distance X_(0)(X_(0)>A) . If the maximum separation between them is (X_(0)+A) , the phase difference between their motion is:

Two particles are executing simple harmonic of the same amplitude (A) and frequency omega along the x-axis . Their mean position is separated by distance Xo. (Xo>A). If the maximum separation between them is (Xo+A), the phase difference between their motion is:

A particle is executing simple harmonic motion with an amplitude of 0.02 metre and frequency 50 Hz . The maximum acceleration of the particle is

Two particles are in SHM with the same amplitude and frequency along the same line and about the same point. If the maximum separation between them is sqrt(3) times their amplitude, the phase difference between them is (2pi)/n . Find value of n

Two particles are in SHM with the same amplitude and frequency along the same line and about the same point. If the maximum separation between them is sqrt(3) times their amplitude, the phase difference between them is (2pi)/n . Find value of n

The maximum seperation between two particles executing simple harmonic motion of the equal amplitude and same frequency along the same straight line and about the same mean position, is sqrt(3) times the amplitude of oscillation. IF the phase difference between them is phi , determine 2pi//phi .