An experiment is performed to determine how bats capture insects in the dark. A pair of microphones are set up on either end of a long room with the bat being released on one end and an insect on the other. When the bat begins to chase the insect, the microphone near the bat hears a frequency of 79.79 kHz and the microphone on the other side of the room hears a frequency of 81.63kHz. a) (3pts) What is the speed of the bat

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Xema8 Xema8 · Answer 1 · 2020-05-30T06:43:45+02:00

Answer:

Explanation:

We shall apply Doppler's effect here .

original frequency = 79.79 kHz

apparent frequency due to movement of source ( bat ) = 81.63 Hz

Let the velocity of bat be v .

expression for apparent frequency can be given as follows

n = [tex]\frac{n_0V}{V-v}[/tex]

n is apparent frequency , n₀ is original frequency , V is velocity of light and v is velocity of source of sound

Putting the values

81.63 = [tex]\frac{79.79\times 340}{340-v}[/tex]

340-v = 332.33

v = 7.67 m /s

velocity of bat is 7.67 m /s .