1. Speakers

2. When two waves meet their amplitudes add. Constructive interference—the two waves add to make a wave of greater amplitude. Destructive interference—the two waves are opposite in amplitude and cancel each other out.

3. Connecting Speakers In-Phase

4. Out-of-Phase Speakers Active sound cancellation

5. In-Phase, Different Distance

6. Tap your fingers on your desk

7. What happens when a pulse hits the end and turns around? Does it return on the same side of the rope or does it invert? Reflection

8. Standing Waves Two sine waves in different directions Two sine waves in different directions Reflections Reflections –Slinky –Periodic laser potentials

9. In the standing wave shown, what is its wavelength? In the standing wave shown, what is its wavelength? In the standing wave shown, what is the amplitude? In the standing wave shown, what is the amplitude? the points which oscillate with the most amplitude are called antinodes the points which oscillate with the most amplitude are called antinodes 10 cm 1 meter

10. 123 Q8-3 What is the wavelength of the wave which is generating the standing wave shown below? (a) L/3 (b) 2L/3 (c) L

11. LUKE 16:1-13 PARABLE OF THE UNJUST STEWARD PARABLE OF THE UNJUST STEWARD

12. Resonance, Harmonics

13. Jigsaw Standing Wave Demo

14. J15-3 Consider a 3-loop standing wave on an elastic cord. If I increase the tension in the cord, the velocity of the waves in the cord will (a) increase, (b) decrease, or (c) remain the same.

15. If I unhook and pull on the belt, I get A. more loops B. fewer loops C. does not change the number of loops

16. The sound you hear from a violin is produced by... 1. The string —determines the pitch (frequency) 2. The violin body —couples sound to the air 3. The bow —provides the energy—driver

17. Resonance When you push a Swing does it make a difference when you push? Tacoma Narrows Bridge http://www.youtube.com/watch?v=xox9BVSu7Okhttp://www.youtube.com/watch?v=xox9BVSu7Ok

18. Violin The fundamental frequency or 1 st harmonic (the lowest frequency for that length) determines the ________ you hear. The fundamental frequency or 1 st harmonic (the lowest frequency for that length) determines the ________ you hear. The 2 nd harmonic frequency is twice the frequency of the first harmonic – a violinist can remove the fundamental by lightly touching the string at the half way point and you hear the 2 nd harmonic. The 2 nd harmonic frequency is twice the frequency of the first harmonic – a violinist can remove the fundamental by lightly touching the string at the half way point and you hear the 2 nd harmonic. pitch

19. For a finite string (a violin string, for example), to change the fundamental frequency you can change... 1. the length of the string. 2. the mass per unit length of the string. 3. the tension in the string.

20. You hear a violinist playing a series of notes by moving their fingers up the fingerboard to effectively reduce the length of the string. As she does this, the notes you hear... A. become higher in pitch B. become higher in pitch C. stays the same pitch

21. You hear a violinist playing a series of notes by moving their fingers up the fingerboard to effectively reduce the length of the string. As she does this, the wave speed... A. Decreases B. Increases C. Stays the same

22. A string fastened at both ends has a length of 1.0 m. Two possible wavelengths for standing waves are A. 4 m and 2 m B. 2 m and.5 m C. 3 m and.5 m D. 4 m and 1 m E. 3 m and 2 m

23. http://www.youtube.com/watch ?v=CR6t47pV8Qc http://www.youtube.com/watch ?v=CR6t47pV8Qc Victor Wooten guitar