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Doppler Shift + observer moving towards, - observer moving away, -source moving towards, + source moving away. v = speed of sound v o = observer speed.

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Presentation on theme: "Doppler Shift + observer moving towards, - observer moving away, -source moving towards, + source moving away. v = speed of sound v o = observer speed."— Presentation transcript:

1 Doppler Shift + observer moving towards, - observer moving away, -source moving towards, + source moving away. v = speed of sound v o = observer speed v s = source speed

2 A car is approaching an observer at 30 m/s and sounds its horn at 500 Hz. What frequency does the observer hear? 548 Hz

3 If the observer is driving at 30 m/s towards a stationary car which is sounding its horn, what frequency will the moving car hear? 544 Hz

4 Sonic Boom Have you personally heard a sonic boom? A. Yes B. I think so D. No

5 Sonic Boom Describe to your neighbor(s) 1. What it sounded like 2. What you think causes a sonic boom

6 Sonic Boom Mach Number: Speed / Speed of Sound Mach 1: v = 343 m/s Mach 2: v = 686 m/s What would Mach 0.5 be? ~170 m/s

7 Sonic Boom

8

9 Harmonics and perception

10 Standing Waves Superposition Creates Standing Waves Two sinusoidal waves traveling in opposite directions add to create a standing wave.

11 The Fundamental – the longest wavelength that will fit on a string. Also known as the 1 st harmonic 2 nd Harmonic

12 f = v / 1 st harmonic  = 2L 2nd harmonic  = L 3rd harmonic  = 2/3L Nth harmonic n = 2L/n 4th harmonic  = 1/2L so f = n v /(2L)

13 Tacoma Narrows Bridge

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