2. Physics 11 n Mr. Jean n January 4 th, 2012

3. The plan: n Video Clip of the day n Wave motion n Wave speed n Types of waves n Interference u Demonstrations using audacity

4. Chapter 5 to 7 Outline: n Potential Energy n Kinetic Energy n Momentum n Work n Conservation of total energy n Conservation of total momentum

5. Quiz Outline: n 20-25 pts  True & False n 20-25 pts  Multiple Choice n 30 pts  Long answer

6. 3.WAVE MOTION n n Energy is transported by particles or waves. n n A wave is a disturbance transmitted through a medium. n n Exception: light does not require a medium.

7. 4.WAVE SPEED The average speed is defined as

8. For a wave, if the distance traveled is a wavelength ( ), then the time to travel this distance is the period (T). Then or

9. is true for all waves. Note: v is dictated by the medium. (must change medium to change v) f is dictated by the source. (must change the source to change f ) Demo - Complete Bell Wave Machine

10. 5.TRANSVERSE WAVES Demonstration: Transverse Waves Examples: string musical instruments ripples on water electromagnetic waves

11. 6.LONGITUDINAL WAVES Video - Slinky Longitudinal Waves Parameters Rarefactions are regions of low density. Compressions (condensations) are regions of high density.  is the distance between successive rarefactions or successive compressions.

12. Demo - Waves on a rope Transverse wave - URL URL A disturbance moves through the medium. Elements of the medium vibrate. Examples: ripples on water wheat waves

13. Spring Demo – Sound generator

14. 7.INTERFERENCE Video - Superposition of Waves SlideSlide - Interference Slide

18. Constructive interference occurs when waves are in phase, that is when crests are superimposed and troughs are superimposed.

19. Destructive interference occurs when waves are out of phase, that is when crests are superimposed with troughs.

21. Interference is a characteristic of all waves. Demonstrations with Audacity

22. Standing Waves n n When two sets of waves of equal amplitude and wavelength pass through each other in opposite directions, it is possible to create an interference pattern that looks like a wave that is “standing still.” It is a changing interference pattern. n Demo - Rope and strobe n Demo - Mechanical overhead model

23. n There is no vibration at a node. n n There is maximum vibration at an antinode.  is twice the distance between successive nodes or successive antinodes.

24. 8.DOPPLER EFFECT n n Refers to the change in frequency when there is relative motion between an observer of waves and the source of the waves n Video - Doppler with Sound n Video - Doppler with Water n Doppler Movie - URL URL

25. When a source of waves and an observer of waves are getting closer together, the observer of the waves “sees” a frequency for the waves that is higher than the emitted frequency. When a source of waves and an observer of waves are getting farther apart, the observer of the waves “sees” a frequency for the waves that is lower than the emitted frequency.

26. n All waves exhibit the Doppler effect. n n A particularly interesting example is used by astronomers to determine if light emitting objects (such as stars) are getting closer to us or farther away. n n On average most stars are moving farther away, and their light spectra are “red shifted.”

27. Red Shift Lab Absorption Spectrum of Element X Star Absorption Spectrum of Element X Star is moving away from us. Red Shifted

28. n Radar bounced off a spinning planet can exhibit a Doppler effect and lead to a determination of the spin rate of the planet. n This was used to discover that Venus has a retrograde spin. n Of course police use the Doppler effect to catch speeding motorists.

29. 9.BOW WAVES n n Waves in front of moving object pile up. n Slide - Wave Barrier Slide n Slide - “Bow” Wave Slide n n The familiar bow wave generated by a speedboat knifing through the water is a non-periodic wave produced by the overlapping of many periodic circular waves. It has a constant shape.

30. 10.SHOCK WAVES n n Just as circular waves move out from a swimming bug, spherical waves move out from a flying object. If the object flies faster than the waves, the result is a cone-shaped shock wave. n Demo - Cone of Waves n n There are two booms, one from the front of the flying object and one from the back.

31. - slower than the speed of sound n Subsonic n Supersonic - faster than the speed of sound n n Mach Number = speed of sound speed of object

32. Chapter 19 Review Questions

33. Doubling the mass of a simple pendulum undergoing small oscillations does what to the period of the pendulum? (a) cuts it in half (b) increases it by the square of 2 (c) nothing (d) doubles it (c) nothing

34. What dictates the frequency of a sound wave? (a) wavelength (b) medium (c) source of the sound (d) speed (e) amplitude (c) source of the sound

35. What determines the speed of a wave? (a) the frequency (b) the wavelength (c) the amplitude (d) the period (e) the medium of transmission

36. A skipper on a boat notices wave crests passing his anchor chain every 5 seconds. If the wave crests are 15 m apart, what is the speed of the water waves in m/s? (a) 5 (b) 15 (c) 75 (d) 10 (e) 3

37. For a medium transmitting a longitudinal wave, the areas of the medium where the density of the medium is temporarily increased are called (a) rarefactions (b) compressions (c) density holes (b) compressions

38. When you move away from a fixed source of sound, the frequency of the sound you hear (a) is greater than what the source emits (b) is less than what the source emits (c) is the same as what the source emits (b) is less than what the source emits

39. Sonic booms from a plane are produced (a) because the plane breaks through the sound barrier (b) when the plane reaches the speed of sound (c) by the plane traveling faster than the speed of sound (d) by the plane traveling slower than the speed of sound (c) by the plane traveling faster than the speed of sound

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