2 loudspeakers are emitting sound waves of wavelength lambda with an initial phase difference of `pi/2` at what minimum distance from O on line AB will one hear a maximum

Two sound sources emitting sound each of wavelength lambda are fixed at a given distance apart. A listener moves with a velocity u along the line joining the two sources. The number of beats heard by him per second is

What is the minimum distance between two points in a wave having a phase difference 2pi ?

Two point sources of sound are kept at a separation of 10 cm. They vibrate in phase to produce waves of wavelength 5.0 cm. What would be the phase difference between the two waves arriving at a point 20 cm from one source (a) on the line joining the sources and (b) on the perpendicular bisector of the line joining the sources ?

Two coherent sound sources A and B produce a sound of wavelength lambda. If at t=0 a detector starts moving with constant velocity v_(0) from point O along y - direction, then the minimum time, after which it detects the sound of maximum intensity, is (D gt gt lambda)

There is a destructive interference between the two waves of wavelength lambda coming from two different paths at a point. To get maximum sound or constructive interference at that point, the path of one wave is to be increased by

A sound source emits two sinusoidal sound waves, both of wavelength lambda , along paths A and B as shown in figure.The sound travelling along path B is reflected from five surfaces as shown and then merges at point Q, producing minimum intensity at that point.The minimum value of d in terms of lambda is :

A sound wave having wavelength lambda forms stationary waves after reflection from a surface. The distance between two consecutive nodes is

Two coherent point sources S_1 " and "S_2 vibrating in phase light of wavelength lambda . The separation between the sources is 2lambda . The smallest distance from S_(2) on a line passing through S_2 and perpendicular to s_(1)s_(2) where a minimum of intensity occurs is

Two coherent narrow slits emitting sound of wavelength lambda in the same phase are placed parallet to each other at a small separation of 2 lambda . The sound is delected by maving a delector on the screen at a distance D(gt gt lambda) from the slit S_(1) as shows in figure. Find the distance y such that the intensity at P is equal to intensity at O .

The figure shows two points source which emit light of wavelength lambda in phase with each other and are at a distance d = 5.5 lambda apart along a line which is perpendicular to a large screen at a distance L from the centre of the source. Assume that d is much less than L. Which of the following statement is (are) correct ?