A stationary sound sound 's' of frequen...

A stationary sound sound 's' of frequency 334 Hz and a stationary observer 'O' are placed near a reflecting surface moving away from the source with velocity 2 m/s as shown in the figure. If the velocity of the sound waves is air is v= 330 m/s the apparent frequency of the echo is

332 Hz

326 Hz

334 Hz

330 Hz

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

WAVE MOTION
DC PANDEY|Exercise More Than One Option is Correct|23 Videos
WAVE MOTION
DC PANDEY|Exercise Comprehion Type Questions|19 Videos
WAVE MOTION
DC PANDEY|Exercise JEE MAINS|50 Videos
VECTORS
DC PANDEY|Exercise Medical enrances gallery|9 Videos
WORK, ENERGY & POWER
DC PANDEY|Exercise Level 2 Comprehension Based|2 Videos

Similar Questions

Explore conceptually related problems

Stationary sound 'S' of frequency 334 Hz and a stationary observer 'O' are placed near a reflecting surface moving away from the source with velocity 2 m/s the apparent frequency of the echo of S considering velocity of sound equal to 334 m/s is (##TRG_PHY_MCQ_XII_C07_E04_015_Q01.png" width="80%">

A sound source emitting sound of frequency 450 Hz is approaching a stationary observer with velocity 30 ms^(-1) and another identical source is going away from the observer with the same velocity. If the velocity of sound is 330 ms^(-1) , then the difference of frequencies heard by observer is

An observer moves towards a stationary source of sound with a velocity one-fifth of the velocity of sound. What is the percentage increase in the apparent frequency?

An observer moves towards a stationary source of sound, with a velocity one-fifth of the velocity of sound. What is the percentage increase in the apparent frequency?

An observer is approaching a stationary source with a velocity 1/4 th of the velocity of sound. Then the ratio of the apparent frequency to actual frequency of source is

A source of frequency n is moving with a uniform velocity v towards a stationary observer. If the velocity of sound is V, then the change in frequency would be -

DC PANDEY-WAVE MOTION-ONLY ONE OPTION IS CORRECT

both the strings , shown in figure are made of same material and have ...
Text Solution
|
A stone in hung in air from a wire which is stretched over a sonometer...
Text Solution
|
A heavy but unifrom rope of length L is suspended from a celling . A p...
Text Solution
|
the same progressive wave is reprsented by two group I and II. Graoup ...
Text Solution
|
A string of length 'L' is fixed at both ends . It is vibrating in its ...
Text Solution
|
A wire having a linear density of 0.05 g//cmis stretched between two r...
Text Solution
|
A sound signal is sent through a composite tube as shown in the figur...
Text Solution
|
A tube of diameter d and of length l is open a both ends. Its fundamen...
Text Solution
|
two speakers A and B , placed 1 m apart, each produces sound waves of ...
Text Solution
|
A source of sound of frequency 165 Hz generates sound waves which get...
Text Solution
|
Bullets are fixed at regular intervals of 10 second from a car moving...
Text Solution
|
the equation of a wave travelling along the positive x - axis ,as show...
Text Solution
|
A closed organ pipe of radius r(1) and an open organ pipe of radius r(...
Text Solution
|
A stationary sound sound 's' of frequency 334 Hz and a stationary obs...
Text Solution
|
A sounding body emitting a frequency of 150 H(Z) is dropped from a hei...
Text Solution
|
A soure of sound of frequency 165 hz is placed in front of a wall at a...
Text Solution
|
A closed organ pipe of length L is vibrating on a circle of radius t a...
Text Solution
|
A sound detector D moves with constant speed on a circle or radius R a...
Text Solution
|
Two notes A and B sounded together produce 2 beats per second. When no...
Text Solution
|
An open organ pipe is vibrating in its fifth overtone. The distance be...
Text Solution
|