Three simple harmonic motions in the same direction having the same amplitude and same period are superposed. If each differ in phase from the next by `45^(@)`, then

Three simle harmionic motions in the same direction having the same amplitude (a) and same period are superposed. If each differs in phase from the next by 45^@ , then.

Three simple harmonic motions in the same direction having same amplitude and the same period are superposed. If each differs in phase from the next by lambda//2 then which of the following is wron. ( i ) Resultant amplitude is (sqrt(2)+1) a ( ii ) Phase of resultant motion relative to first is 90^(@) ( iii ) The energy associated with the resulting motion is 3 times the energy associated with any single motion

Three simple harmonic motions in the same direction having each of amplitude "a" and the same period are superposed. If each differs in phase from the next by pi//4 then

Three simple harmonic motions in the same direction each of amplitude a and periodic time T , are superposed. The first and second and the second and third differ in phase from each other by (pi)/(4) , with the first and third not being identical . Then.

A particle is subjected to two simple hasrmonic motions 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.

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

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.

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

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

Three simple harmonic motion of equal amplitudes A and equal time periods in the same direction combine. The phase of the second motion is 60^(@) ahead of the first and the phase of the third motion is 60^(@) ahead of the second. Find the amplitude of the resultant motion.