A source and a detector moveaway fro each other, each with a speed of `10 ms^-1` with respect to the grond with no wind. If the detector detects a frequency 1950 Hz of the sound coming from thesorce, what is the original frequency of the source? Speed of sound in air `=340 ms^-1`.

A source and a detector move away from each other, each with a speed of 10 ms^-1 with respect to the ground with no wind. If the detector detects a frequency 1950 Hz of the sound coming from the source, what is the original frequency of the source? Speed of sound in air =340 ms^-1 .

A source and a detector move away from each other, each with a speed of 10 ms^-1 with respect to the ground with no wind. If the detector detects a frequency 1950 Hz of the sound coming from the source, what is the original frequency of the source? Speed of sound in air =340 ms^-1 .

A source and a detector move away from each other, each with a speed of 10 m/s with respect to ground with no wind. If the detector detects a frequency 1650 Hz of the sound coming from the source, what is the original frequency of the source? (speed of sound = 340 m/s

A source and a detector move away from each other, each with a speed of 10 m/s with respect to ground with no wind. If the detector detects a frequency 1650 Hz of the sound coming from the source, what is the original frequency of the source? (speed of sound = 340 m/s

The source and an observer move away from each other, each with a velocity of 10m//s , with respect to ground, If the obsever find the frequency of sound coming from the source as 1950Hz, the original frequency of the source is (assume velocity of sound in air = 340ms^-1 )

Two cars A and B are moving away from each other in opposite directions. Both the cars are moving with a speed of 20 ms^(-1) with respect to the ground. If an observer in car A detects a frequency 2000 Hz of the sound coming from car B, what is the natural frequency of the sound source in car B? (Speed of sound in air = 340 ms^(-1) )

Two cars A and B are moving away from each other in opposite directions. Both the cars are moving with a speed of 20 ms^(-1) with respect to the ground. If an observer in car A detects a frequency 2000 Hz of the sound coming from car B, what is the natural frequency of the sound source in car B? (Speed of sound in air = 340 ms^(-1) )

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 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 )

On the same path, the source and observer are moving such a way that the distance between these two inicreases with the time. The speeds of source and observer are same and equal to 10ms^(-1) with respect to the ground while no wind in blowing. The apparent frequency received by observer is 1950 Hz then the original frequency must be (the speed of sound in present medium is 340 m//s