A whistle S of frequency f revolves in a circle of radius R at a constant speed v. What is the ratio of largest and

Q: A whistle $S$ of frequency $f$ revolves in a circle of radius $R$ at a constant speed $v$. What is the ratio of largest and smallest frequency detected by a detector $D$ at rest at a distance $2R$ from the centre of circle as shown in figure ? (take $c$ as speed of sound)

a Largest frequency will be detected when the source approaches detector along the line joining and the smallest frequency will be detected when the source recedes the detector along the line joining them $\frac{f_{1}}{f_{2}}=\frac{\left(\frac{c}{c-v}\right) f}{\left(\frac{c}{c+v}\right) f}=\frac{c+v}{c-v}$

SECTION - A [PHYSICS - MCQ]

GSEB - English Medium

A whistle $S$ of frequency $f$ revolves in a circle of radius $R$ at a constant speed $v$. What is the ratio of largest and smallest frequency detected by a detector $D$ at rest at a distance $2R$ from the centre of circle as shown in figure ? (take $c$ as speed of sound)

A$\left( {\frac{{c + v}}{{c - v}}} \right)$
B$\sqrt 2 \left( {\frac{{c + v}}{{c - v}}} \right)$
C$\sqrt 2$
D$\frac{{\left( {c + v} \right)}}{{c\sqrt 2 }}$

Medium

STD 11 Science
NEET
STD 11 - 14. waves and sound
Physics

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