A source of sound emits waves of frequency f0=1200 Hz. The source is travelling with a velocity v1=30 m/s. towards east. There is a large reflecting surface in front of the source which is travelling with a velocity v2=60 m/s towards west. Speed of sound in air is v=330 m/s. Find the ratio of wavelength (λ1) of sound emitted by source when travelling towards the reflecting surface to the wavelength (λ2) of sound approaching the source after getting reflected.

A source of sound emits waves of frequency f0=1200 Hz. The source is t

1.	A source of sound emits waves of frequency f0=1200 Hz. The source is travelling with a velocity v1=30 m/s. towards east. There is a large reflecting surface in front of the source which is travelling with a velocity v2=60 m/s towards west. Speed of sound in air is v=330 m/s. Find the ratio of wavelength (λ1) of sound emitted by source when travelling towards the reflecting surface to the wavelength (λ2) of sound approaching the source after getting reflected.
Answer» A source of sound emits waves of frequency $f_{0} = 1200 Hz .$ The source is travelling with a velocity $v_{1} = 30 m/s .$ towards east. There is a large reflecting surface in front of the source which is travelling with a velocity $v_{2} = 60 m/s$ towards west. Speed of sound in air is $v = 330 m/s$ . Find the ratio of wavelength $(λ_{1})$ of sound emitted by source when travelling towards the reflecting surface to the wavelength $(λ_{2})$ of sound approaching the source after getting reflected.

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