Two sound speakers are driver in phase b...

Two sound speakers are driver in phase by an audio amplifier at frequency `600 H_(Z)`. The speed of sound is `340 m//s`. The speakers are on the `y `- axis, one at `y = + 1.0 m` and the other at `y = - 1.0 m` . A listener begins at `y = 0` and walks along a line parallel to the `y` - axis at a very large distance `x` away.
(a) At what angle `theta` (between the line from the origin to the listener at the `x` - axis) will she first hear a minimum sound intensity?
(b) At what angle will she first hear a maximum (afer `theta = o^(@)`) sound intensity?
(c ) How many maxima can she possible hear if she keeps walking in the same direction?

Text Solution

Verified by Experts

The correct Answer is:

A, B, C, D

(a) `lambda = (nu)/(f) = (340)/(600) = 0.57 m`

`d sin theta = (lambda)/(2)`
`:. theta = sin^(-1) ((lambda)/(2d))`
`= sin^(-1) ((0.57)/(4))`
`= 8.14^(@)`
(b) `d sin theta = lambda` or `theta = sin^(-1) (lambda/(d))`
`= sin^(-1) ((0.57)/(2))`
`= 16.5^(@)`
(c ) `d sin theta = n lambda`
`:. n_(max) = (d)/(lambda)` (when `sin theta = 1`)
`= (2)/(0.57) = 3.5`
`:.` Maximum `3` maximas can be heard
corresponding to `n = 1, 2` and `3`( beyond `theta = 0^(@)`)

Topper's Solved these Questions

SOUND WAVES
DC PANDEY|Exercise Exercise 19.1|4 Videos
SOUND WAVES
DC PANDEY|Exercise Exercise 19.2|4 Videos
SOUND WAVES
DC PANDEY|Exercise Comprehension Based Questions|2 Videos
SOLVD PAPERS 2017 NEET, AIIMS & JIPMER
DC PANDEY|Exercise Solved paper 2018(JIPMER)|38 Videos
SUPERPOSITION OF WAVES
DC PANDEY|Exercise Level 2 Subjective|8 Videos

Similar Questions

Explore conceptually related problems

Two speakers S_1 and S_2 , driven by the same amplifier, areplaced at y = 1.0 m and y = -1.0 m . The speakers vibrate in phase at 600 Hz. A man stands at a point on the X-axis at a very large distance from the origin and starts moving parallel to the Y-axis. The speed of sound in air is 330 ms^-1 (a) At what angle theta will the intensity of sound drop to a minimum for the first time ? (b) At what angle will he hear a maximum of sound intensity for the first time ? (c) If he continues to walk along the line, how many more maxima can he hear ?

A car is moving along X-axis with a velocity v=20m//s . It sounds a whistle of frequency 660 Hz. If the speed of sound is 340m//s . The apparent frequency heard by the observer O (shown in figure) is:

Find the equation of the line parallel to the y-axis and drawn through the point of intersection of the lines x-7y+15=0 and 2x+y=0 .

A sound source moves with a speed of 80 m//s relative to still air toward a stationary listener. The frequency of sound is 200 H_(Z) and speed of sound in air is 340 m//s . (a) Find the wavelength of the sound between the source and the listener. (b) Find the frequency heard by the listener.

Find the equation of the line through the intersection of the lines 2x-3y+1=0 and x+y-2=0 and drawn parallel to y-axis.

A point source of sound is located somewhere along the x-axis. Experiments show that the same wave front simultaneously reaches listeners at x=-8 m and x=+2.0 m A third listener is positioned along the positive y-axis What is her y-coordinate (in m) if the same wave front reaches her at the same instant as it does the first two listeners?

DC PANDEY-SOUND WAVES-Level 2 Subjective

A window whose area is 2 m^(2) opens on a street where the street nois...
Text Solution
|
A point A is located at a distance r = 1.5 m from a point source of so...
Text Solution
|
A flute which we treat as a pipe open at both ends is 60 cm long. (a) ...
Text Solution
|
A source S and a detector D high frequency waves are a distance d apar...
Text Solution
|
Two sound speakers are driver in phase by an audio amplifier at freque...
Text Solution
|
Two speakers separeted by some distance emit sound of the same frequen...
Text Solution
|
Two loudspeakers radiate in phase at 170 H(Z). An observer sits at 8 m...
Text Solution
|
Two identical speakers emit sound waves of frequency 680 H(Z) uniforml...
Text Solution
|
A train of length l is moving with a constant speed upsilon along a ci...
Text Solution
|
A 3 m long organ pipe open at both ends is driven to third harmonic st...
Text Solution
|
A siren creates a sound level of 60 H(Z) at a location 500 m from the ...
Text Solution
|
A cylinder of length 1m is divided by a thin perfectly flexible diaphr...
Text Solution
|
A conveyor belt moves to the right with speed upsilon = 300 m//s. A ve...
Text Solution
|
A point sound source is situated in a medium of dulk modulus 1.6 xx 10...
Text Solution
|
Two sources of sound S1 and S2 vibrate at same frequency and are in ph...
Text Solution
|
Two narrow cylindrical pipes A and B have the same length. Pipe A is o...
Text Solution
|
A boat is travelling in a river with a speed 2m//s. From this boat, a ...
Text Solution
|
A string 25cm long and having a mass of 2.5 gm is under tension. A pip...
Text Solution
|
A source of sound of frequency 1000 Hz moves to the right with a speed...
Text Solution
|