Two identical speakers emit sound waves of frequency 660Hz uniformly in all directions. The audio output of each speaker is 1mW and the speed of sound in air. A point P is a distance 2m from one speaker and 3m from the other. If they are driven coherently but out of phase by `180^@` , the intensity at the point 'P' is

Two identical speakers emit sound waves of frequency 680 H_(Z) uniformly in all directions with a total audio output of 1 mW each. The speed of sound in air is 340 m//s . A point P is a distance 2.00 m from one speaker and 3.00 m from the other. (a) Finf the intensity I_(1) and I_(2) from rach speaker at point p separately. (b) If the speakers are driven coherently and in phase, what is the intensity at point p ? (c ) If they driven coherently but of phase by 180^(@) , what is the intensity at point P ? (d) If the speakers are incoherent, what is the intensity at point p ?

Sound waves are emitted uniformly in all directions from a point source. The dependence of sound level beta in decibels on the radial distance r can be expressed as [Given a and b are positive constants]

Spherical sound waves are emitted uniformly in all direction from a point source. The variation in sound level SL. As a function of distance r from the source can be written as where a and b are positive constants.

Two loudspeakers S_(1) and S_(2) each emit sounds of frequency 220 H_(Z) uniformly in all directions. S_(1) has an acoustic output of 1.2 xx 10^(-3) W and S_(2) has 1.8 xx 10 ^(-3) W . S_(1) and S_(2) vibrate in phase.Consider a point P such that S_(1) P = 0.75 m and S_(2) p = 3 m . How are the phases arriving at P related? What is the intensity at P when both S_(1) and S_(2) are on ? Speed of sound in air is 330 m//s .

The intensity of a point source emitting sound at distance 3 from the source is 0.707 W//m^2? What is the average power output of the source ?

Two identical loudspeakers are placed on a line at distance 4m and 6m from a microphone lying on the line joining them. The output of each speaker at the microphone is 2mW . If the two speakers are connected in series and excited by the same oscillator and they vibrate in phase with each other, the resultant ouput of the microphone will be (frequency of oscillator =660 Hz and speed of sound =330 m//s )

Sound waves of frequency 660 H_(Z) fall normally on perfectly reflecting wall. The distance from the wall at which the air particles have the maximum amplitude of vibration is (speed of sound in air = 330 m//s )

Two speakers separeted by some distance emit sound of the same frequency. At some point P the intensity due to each speaker separately is I_(o) . The path difference from P to one of the speakers is (1)/(2) lambda greater than that from P to the other speaker. What is the intensity at P if (a) the speakers are coherent and in phase, (b) the speakers are incoherent, and (c ) the speakers are coherent but have a phase different of 180^(@) ?

A point source emits sound equally in all directions in a non-absorbing medium. Two point P and Q are at distance of 2 m and 3 m respectively from the source. The ratio of the intensities of the wave at P and Q is :

The intensity of sound from a radio at a distance of 2 metres from its speaker is 1xx10^(-2) mu W//m^(2) . The intensity at a distance of 10 meters would be