$A$ speaker emits a sound wave of frequency $f_0$. When it moves towards a stationary observer with speed $u$,the observer measures a frequency $f_1$. If the speaker is stationary and the observer moves towards it with speed $u$,the measured frequency is $f_2$. Then,

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

$A$ whistle emitting a loud sound of frequency $540 \,Hz$ is whirled in a horizontal circle of radius $2 \,m$ at a constant angular speed of $15 \,rad/s$. The speed of sound is $330 \,m/s$. The ratio of the highest to the lowest frequency heard by a listener standing at rest at a large distance from the centre of the circle is

Obtain the equation for the frequency observed by a stationary observer when the source is moving.

$A$ reflector is moving with $20 \,m/s$ towards a stationary source of sound. If the source is producing sound waves of $160 \,Hz$, then the wavelength of the reflected wave is (speed of sound in air is $340 \,m/s$).

Which pre-assumptions are used for the Doppler effect?