A source of sound S is moving with a velocity `50 m//s` towards a stationary observer. The observer measures the frequency of the source as 1000 Hz. What will be the apparent frequency of the source when it is moving away from the observer after crossing him? The velocity of sound in the medium is `350 m//s`.

When the light source is moving towards an observer,

When source of sound moves towards a stationary observer, the wavelength of sound received by him

A source of sound is travelling towards a stationary observer. The frequency of sound heard by the observer is of three times the original frequency. The velocity of sound is v m/s. The speed of source will be

A source of sound when moves towards a stationary observer, then frequency of the sound heard by listener is more than actual frequency because the

State the expression for apparent frequency : i. when source of sound and listener are moving away from each other.

A car is travelling with a velocity of 40 m//s towards a source of sound of frequency 1000 Hz. If sound velocity is 330 m//s , then apparent frequency heard by the observer (in Hz) is

A source and an observer move away from each other with a velocity of 10 m/s with respect to ground. If the observer finds the frequency of sound coming from the source as 1950 Hz , then actual frequency of the source is (velocity of sound in air = 340 m/s )

A car is moving with a speed of 72 km-hour^(-1) towards a roadside source that enits sound at a frequency of 850 Hz. The car driver listens to the sound while approching the source and again while moving away from the source after crossing it. If the velocity of sound is 340 ms^(-1) , the difference of the two frequencies the driver hears is

The apparent change in frequency of a sounding source and observer in relative motion is

If a source of light is moving away from a stationary observer, then the frequency of light wave appears to change because of