If the phase difference between the two wave is `2 pi` during superposition, then the resultant amplitude is

The phase difference between two waves reaching a point is pi//2 . What is the resultant amplitude, if the individual amplitudes are 3mm and 4mm ?

The intensities of two sources are I a nd 9I respectively,If the phase difference between the waves emitted by then is pi then the resultant intensity at the point of observation will be-

Two sine waves travel in the same direction in a medium. The amplitude of each wave is A and the phase difference between the two waves is 120^@ . The resultant amplitude will be

Two sound waves travel in the same direction in a medium. The amplitude of each wave is A and the phase difference between the two waves is 120^(@) . The resultant amplitude will be

Two waves, travelling in the same direction through the same region, have equal frequencies, wavelengths and amplitudes. If the amplitude of each wave is 4 mm and the phase difference between the waves is 90^@ , what is the resultant amplitude ?

For minimum intensity the phase difference between the two waves is

Two particles execute SHM about a common mean position with equal amplitudes along same line with amplitude of 12cm.If phase difference between the two particles is (2 pi)/(3) ,the maximum separation between the particles is

If the phase difference between the two light waves interfering at point of the medium is equal to odd multiple of pi then tat point appears are

Assertion: If two waves of same amplitude produce a resultant wave of same amplitude,then the phase difference between them will be 120 ^(@) Reason: The resultant amplitude of two waves is equal to vector sum of amplitudes treated as vectors

Assertion (A) : If two waves of same amplitude produce a resultant wave of same amplitude produce a resultant wave of same of same amplitude, then the phase difference between them may br 120^(@) . Reason (R ) : The resultant amplitude of two waves is equal to algebraic sum of amplitude of two waves.