Ask Question
16 December, 20:14

You are at a railroad crossing waiting for a freight train traveling at a speed of 30.8 m/s to pass by. The frequency of the train's horn is 325 Hz. (Use 343 m/s as the speed of sound.) (a) Determine the overall change in frequency you detect as the train moves from approaching to receding. Use the sign of your answer to indicate whether the frequency increases or decreases.

+2
Answers (1)
  1. 16 December, 20:18
    0
    -58.84 Hz.

    Explanation:

    This is a question under Doppler effect.

    The mathematical equation of doppler effect is given as

    fo = (v + vo) / (v - vs) * fs

    Where fo = frequency perceived by observer = ?

    v = speed of sound in air = 343m/s

    vo = velocity of obseerver relative to the source = 0 (since he is not moving)

    vs = velocity of source relative to the observer = 30.8 m/s

    fs = frequency of sound produced by source = 325 Hz

    For the condition where the train is approaching the observer, velocity of source relative to the observer (vs) is positive, hence vs = 30.8 m/s

    fo = (343+0) / (343 - 30.8) * 325

    fo = 357.06 Hz.

    For the condition where the train is moving away from the observer, velocity of source relative to the observer (vs) is negative, hence vs = - 30.8 m/s

    fo = (343+0) / (343 - (-30.8)) * 325

    fo = (343 / 343 + 30.8) * 325

    fo = (343/373.8) * 325

    = 298.22 Hz

    Change in frequency as the train moves from approaching to receeding is = 298.22 - 357.06

    = - 58.84 Hz.
Know the Answer?
Not Sure About the Answer?
Find an answer to your question 👍 “You are at a railroad crossing waiting for a freight train traveling at a speed of 30.8 m/s to pass by. The frequency of the train's horn ...” in 📗 Physics if the answers seem to be not correct or there’s no answer. Try a smart search to find answers to similar questions.
Search for Other Answers