354715 A source of sound and an observer are approaching each other with the same speed, which is equal to \(\dfrac{1}{10}\) times the speed of sound. The apparent relative change in the frequency of the source is

354716 A source of sound emits sound waves at frequency \(f_{0}\). It is moving towards an observer with fixed speed \(v_{s}\left(v_{s} < v\right.\), where \(v\) is the speed of sound in air). If the observer were to move towards the source with speed \(v_{0}\), one of the following two graphs (\(A\) and \(B\)) will given the correct variation of the frequency \(f\) heard by the observer as \(v_{0}\) is changed.

354717 In Doppler effect, when a source moves towards a stationary observer, the apparent increase in frequency is due to

354718 A source of sound is moving with constant velocity of \(20\;m/s\) emitting a note of frequency \(1000\;Hz\). The ratio of frequencies observed by a stationary observer while the source is approaching him and after it crosses him will be

354715 A source of sound and an observer are approaching each other with the same speed, which is equal to \(\dfrac{1}{10}\) times the speed of sound. The apparent relative change in the frequency of the source is

354716 A source of sound emits sound waves at frequency \(f_{0}\). It is moving towards an observer with fixed speed \(v_{s}\left(v_{s} < v\right.\), where \(v\) is the speed of sound in air). If the observer were to move towards the source with speed \(v_{0}\), one of the following two graphs (\(A\) and \(B\)) will given the correct variation of the frequency \(f\) heard by the observer as \(v_{0}\) is changed.

354717 In Doppler effect, when a source moves towards a stationary observer, the apparent increase in frequency is due to

354718 A source of sound is moving with constant velocity of \(20\;m/s\) emitting a note of frequency \(1000\;Hz\). The ratio of frequencies observed by a stationary observer while the source is approaching him and after it crosses him will be

354715 A source of sound and an observer are approaching each other with the same speed, which is equal to \(\dfrac{1}{10}\) times the speed of sound. The apparent relative change in the frequency of the source is

354716 A source of sound emits sound waves at frequency \(f_{0}\). It is moving towards an observer with fixed speed \(v_{s}\left(v_{s} < v\right.\), where \(v\) is the speed of sound in air). If the observer were to move towards the source with speed \(v_{0}\), one of the following two graphs (\(A\) and \(B\)) will given the correct variation of the frequency \(f\) heard by the observer as \(v_{0}\) is changed.

354717 In Doppler effect, when a source moves towards a stationary observer, the apparent increase in frequency is due to

354718 A source of sound is moving with constant velocity of \(20\;m/s\) emitting a note of frequency \(1000\;Hz\). The ratio of frequencies observed by a stationary observer while the source is approaching him and after it crosses him will be

354715 A source of sound and an observer are approaching each other with the same speed, which is equal to \(\dfrac{1}{10}\) times the speed of sound. The apparent relative change in the frequency of the source is

354716 A source of sound emits sound waves at frequency \(f_{0}\). It is moving towards an observer with fixed speed \(v_{s}\left(v_{s} < v\right.\), where \(v\) is the speed of sound in air). If the observer were to move towards the source with speed \(v_{0}\), one of the following two graphs (\(A\) and \(B\)) will given the correct variation of the frequency \(f\) heard by the observer as \(v_{0}\) is changed.

354717 In Doppler effect, when a source moves towards a stationary observer, the apparent increase in frequency is due to

354718 A source of sound is moving with constant velocity of \(20\;m/s\) emitting a note of frequency \(1000\;Hz\). The ratio of frequencies observed by a stationary observer while the source is approaching him and after it crosses him will be