Two linear simple harmonic motions of equal amplitude and frequency are impressed on a particle along x and y axis respectively. The initial phase difference between them is `pi/2`. The resultant path followed by the particle is

Two linear SHM of equal amplitudes A and frequencies omega and 2omega are impressed on a particle along x and y - axes respectively. If the initial phase difference between them is pi//2 . Find the resultant path followed by the particle.

Two linear harmonic motions of equal amplitudes and frequencies omega and 2 omega imposed on a particle along the axes of x and y respectively. If the initial phase difference between them is pi//2 , then find the resultant path followed by the particle.

Two simple harmonic motions with the same frequency act on a particle at right angles i.e., along X-axis and Y-axis. If the two amplitudes are equal and the phase difference is pi//2 , the resultant motion will be

Two particles perform linear simple harmonic motion along the same path of length 2 A and period T as shown in the graph below. The phase difference between them is

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 .

When two mutually perpendicular simple harmonic motions of same frequency, amplitude and phase are susperimposed

When two particles performing SHM of same amplitude and frequency arriving at a point of medium simultaneously with phase difference of pi//2 , then the resultant path is

Two particles execute simple harmonic motion of the same amplitude and frequency along close parallel lines. They pass each other moving in opposite directions each time their displacement is half their amplitude. Their phase difference is

A particle is subjected to two simple harmonic motion in the same direction having equal amplitudes and equal frequency. If the resultant amplitude is equal to the amplitude of the individual motions. Find the phase difference between the individual motions.