Match Column-$A$ with Column-$B$.
Column-$A$ Column-$B$ $(a)$ When source of sound and listener move towards wall. $(i)$ Listener would hear a sound with same frequency as that of source. $(b)$ When source of sound and listener move away from each other. $(ii)$ Listener would hear a sound with frequency smaller than that of source. $(iii)$ Frequency of echo would be greater than that of source.
| Column-$A$ | Column-$B$ |
| $(a)$ When source of sound and listener move towards wall. | $(i)$ Listener would hear a sound with same frequency as that of source. |
| $(b)$ When source of sound and listener move away from each other. | $(ii)$ Listener would hear a sound with frequency smaller than that of source. |
| $(iii)$ Frequency of echo would be greater than that of source. |
(A) For $(a)$,when both the source and the listener move towards a wall,the sound reflects off the wall. The wall acts as a secondary source. Since both are moving towards the reflecting surface,the frequency of the reflected sound (echo) heard by the listener increases due to the Doppler effect. Thus,$(a-iii)$.
For $(b)$,when the source and the listener move away from each other,the relative velocity between them increases,causing the observed frequency to decrease according to the Doppler effect formula $f' = f \left( \frac{v - v_L}{v + v_S} \right)$. Thus,$(b-ii)$.
For $(b)$,when the source and the listener move away from each other,the relative velocity between them increases,causing the observed frequency to decrease according to the Doppler effect formula $f' = f \left( \frac{v - v_L}{v + v_S} \right)$. Thus,$(b-ii)$.
Explore More
Similar Questions
Two factories are sounding their sirens at $800 \, Hz$. $A$ man walks from one factory to the other at a speed of $2 \, m/s$. The velocity of sound is $320 \, m/s$. The number of beats heard by the person in one second will be:
$A$ sound source is tied to one end of a string of length $50 \ cm$ and is rotated with an angular speed of $40 \ rad \ s^{-1}$ in a horizontal plane. The ratio of the maximum and minimum frequencies of the sound heard by an observer standing at a distance of $10 \ m$ from the fixed end of the string is (speed of sound in air $= 340 \ m \ s^{-1}$).
DifficultTS EAMCET 2023
View Solution$A$ whistle giving out $450 Hz$ approaches a stationary observer at a speed of $33 m/s$. The frequency heard by the observer in $Hz$ is (Take speed of sound $v = 330 m/s$)
MediumIIT 1997
View Solution$A$ source of sound of frequency $n$ is moving towards a stationary observer with a speed $S$. If the speed of sound in air is $V$ and the frequency heard by the observer is $n_1$,the value of $n_1/n$ is
Medium
View SolutionTwo cars $A$ and $B$ are moving in the same direction with speeds $36 \, km/hr$ and $54 \, km/hr$ respectively. Car $B$ is ahead of $A$. If $A$ sounds a horn of frequency $1000 \, Hz$ and the speed of sound in air is $340 \, m/s$,the frequency of sound received by the driver of car $B$ is ................. $Hz$.
Difficult
View SolutionVedclass Products
For Students
Vedclass Test Series
Mock tests in real JEE/NEET style with performance analysis. 5-day free trial.
Start Free TrialFor Teachers
Exam Paper Generator
Generate Set A/B/C/D exam papers from 7.5L+ questions in 2 minutes. 3 chapters free.
Try FreeFor Institutes
Online Exam Module
Live online exams with unlimited students, 360° analytics & white-label branding.
See Demo