Question:

An observer moves towards a stationary source of sound with a speed $1 / 5\, th$ of the speed of sound. The wavelength and frequency of the source emitted are $\lambda$ and $f$ respectively. The apparent frequency and wavelength recorded by the observer are respectively

Updated On: Jun 20, 2022
  • $f,1.2 \lambda$
  • $ 0.8 f,0.8 \lambda$
  • $1.2 f,1.2 \lambda$
  • $1.2 f,\lambda$
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The Correct Option is D

Solution and Explanation

When an observer moves towards an stationary source of sound, then apparent frequency heard by the observer increases. The apparent frequency heard in this situation
$f^{'}=\left(\frac{\nu+v_{o}}{\nu-v_{s}}\right) f$
As source is stationary hence, $v_{s}=0$
$f^{'}=\left(\frac{v+v_{0}}{v}\right) f$
Given, $v_a\frac{5}{v}$
Substituting in the relation for $f^{\prime}$, we have
$f^{'}=\left(\frac{v+v / 5}{v}\right) f=\frac{6}{5} f=1.2 f$
Motion of observer does not affect the wavelength reaching the observer, hence, wavelength remains $\lambda$.
Note : When the speed of source and observer are much lesser than that of sound, the change in frequency becomes independent of the fact whether the source is moving or the observer.
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Concepts Used:

Electromagnetic waves

The waves that are produced when an electric field comes into contact with a magnetic field are known as Electromagnetic Waves or EM waves. The constitution of an oscillating magnetic field and electric fields gives rise to electromagnetic waves.

Types of Electromagnetic Waves:

Electromagnetic waves can be grouped according to the direction of disturbance in them and according to the range of their frequency. Recall that a wave transfers energy from one point to another point in space. That means there are two things going on: the disturbance that defines a wave, and the propagation of wave. In this context the waves are grouped into the following two categories:

  • Longitudinal waves: A wave is called a longitudinal wave when the disturbances in the wave are parallel to the direction of propagation of the wave. For example, sound waves are longitudinal waves because the change of pressure occurs parallel to the direction of wave propagation.
  • Transverse waves: A wave is called a transverse wave when the disturbances in the wave are perpendicular (at right angles) to the direction of propagation of the wave.