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19 lecture outline 2
1.
Ā© 2010 Pearson
Education, Inc. Conceptual Physics 11th Edition Chapter 19: VIBRATIONS AND WAVES
2.
Ā© 2010 Pearson
Education, Inc. This lecture will help you understand: ā¢ Vibrations of a Pendulum ā¢ Wave Description ā¢ Wave Speed ā¢ Transverse Waves ā¢ Longitudinal Waves ā¢ Wave Interference ā¢ Standing Waves ā¢ Doppler Effect ā¢ Bow Waves ā¢ Shock Waves
3.
Ā© 2010 Pearson
Education, Inc. Good Vibrations ā¢ A vibration is a periodic wiggle in time. ā¢ A periodic wiggle in both space and time is a wave. A wave extends from one place to another. Examples are: ā light, which is an electromagnetic wave that needs no medium. ā sound, which is a mechanical wave that needs a medium.
4.
Ā© 2010 Pearson
Education, Inc. Vibrations and Waves Vibration ā¢ Wiggle in time Wave ā¢ Wiggle in space and time
5.
Ā© 2010 Pearson
Education, Inc. Vibrations of a Pendulum ā¢ If we suspend a stone at the end of a piece of string, we have a simple pendulum. ā¢ The pendulum swings to and fro at a rate that ā depends only on the length of the pendulum. ā does not depend upon the mass (just as mass does not affect the rate at which a ball falls to the ground).
6.
Ā© 2010 Pearson
Education, Inc. Vibrations of a Pendulum ā¢ The time of one to-and-fro swing is called the period. ā¢ The longer the length of a pendulum, the longer the period (just as the higher you drop a ball from, the longer it takes to reach the ground).
7.
Ā© 2010 Pearson
Education, Inc. A 1-meter-long pendulum has a bob with a mass of 1 kg. Suppose that the bob is now replaced with a different bob of mass 2 kg, how will the period of the pendulum change? A. It will double. B. It will halve. C. It will remain the same. D. There is not enough information. Vibrations of a Pendulum CHECK YOUR NEIGHBOR
8.
Ā© 2010 Pearson
Education, Inc. A 1-meter-long pendulum has a bob with a mass of 1 kg. Suppose that the bob is now replaced with a different bob of mass 2 kg, how will the period of the pendulum change? A. It will double. B. It will halve. C. It will remain the same. D. There is not enough information. Vibrations of a Pendulum CHECK YOUR ANSWER Explanation: The period of a pendulum depends only on the length of the pendulum, not on the mass. So changing the mass will not change the period of the pendulum.
9.
Ā© 2010 Pearson
Education, Inc. A 1-meter-long pendulum has a bob with a mass of 1 kg. Suppose that the bob is now tied to a different string so that the length of the pendulum is now 2 m. How will the period of the pendulum change? A. It will increase. B. It will decrease. C. It will remain the same. D. There is not enough information. Vibrations of a Pendulum CHECK YOUR NEIGHBOR
10.
Ā© 2010 Pearson
Education, Inc. A 1-meter-long pendulum has a bob with a mass of 1 kg. Suppose that the bob is now tied to a different string so that the length of the pendulum is now 2 m. How will the period of the pendulum change? A. It will increase. B. It will decrease. C. It will remain the same. D. There is not enough information. Vibrations of a Pendulum CHECK YOUR ANSWER Explanation: The period of a pendulum increases with the length of the pendulum.
11.
Ā© 2010 Pearson
Education, Inc. Wave Description ā¢ A wave is pictorially represented by a sine curve. ā¢ A sine curve is obtained when you trace out the path of a vibrating pendulum over time. ā Put some sand in the pendulum and let it swing. ā The sand drops through a hole in the pendulum onto a sheet of paper. ā As the pendulum swings back and forth, pull the sheet of paper on which the sand falls. ā The sand makes a sine curve on the paper.
12.
Ā© 2010 Pearson
Education, Inc. Wave Description When a bob vibrates up and down, a marking pen traces out a sine curve on the paper that moves horizontally at constant speed.
13.
Ā© 2010 Pearson
Education, Inc. Wave Description Vibration and wave characteristics ā¢ Crests ā high points of the wave ā¢ Troughs ā low points of the wave
14.
Ā© 2010 Pearson
Education, Inc. Wave Description Vibration and wave characteristics (continued) ā¢ Amplitude ā distance from the midpoint to the crest or to the trough ā¢ Wavelength ā distance from the top of one crest to the top of the next crest, or distance between successive identical parts of the wave
15.
Ā© 2010 Pearson
Education, Inc. Wave Description How frequently a vibration occurs is called the frequency. ā¢ The unit for frequency is Hertz (Hz), after Heinrich Hertz ā¢ A frequency of 1 Hz is a vibration that occurs once each second. ā¢ Mechanical objects (e.g., pendulums) have frequencies of a few Hz. ā¢ Sound has a frequency of a few 100 or 1000 Hz. ā¢ Radio waves have frequencies of a few million Hz (MHz). ā¢ Cell phones operate at few billon Hz (GHz).
16.
Ā© 2010 Pearson
Education, Inc. Wave Description Frequency ā¢ Specifies the number of to and fro vibrations in a given time ā¢ Number of waves passing any point per second Example: 2 vibrations occurring in 1 second is a frequency of 2 vibrations per second.
17.
Ā© 2010 Pearson
Education, Inc. Wave Description Period ā¢ Time to complete one vibration or, vice versa, Example: Pendulum makes 2 vibrations in 1 second. Frequency is 2 Hz. Period of vibration is 1 ā2 second. frequency 1 Period = period 1 Frequency =
18.
Ā© 2010 Pearson
Education, Inc. A sound wave has a frequency of 500 Hz. What is the period of vibration of the air molecules due to the sound wave? A. 1 s B. 0.01 s C. 0.002 s D. 0.005 s Wave Description CHECK YOUR NEIGHBOR
19.
Ā© 2010 Pearson
Education, Inc. A sound wave has a frequency of 500 Hz. What is the period of vibration of the air molecules due to the sound wave? A. 1 s B. 0.01 s C. 0.002 s D. 0.005 s Wave Description CHECK YOUR ANSWER frequency 1 Period = Explanation: So: = 0.002 s 500 Hz 1 Period =
20.
Ā© 2010 Pearson
Education, Inc. If the frequency of a particular wave is 20 Hz, its period is A. 1 /20 second. B. 20 seconds. C. more than 20 seconds. D. None of the above. Wave Description CHECK YOUR NEIGHBOR
21.
Ā© 2010 Pearson
Education, Inc. If the frequency of a particular wave is 20 Hz, its period is A. 1 /20 second. B. 20 seconds. C. more than 20 seconds. D. None of the above. Explanation: Note when Ę = 20 Hz, T = 1/Ę = 1/(20 Hz) = 1 /20 second. Wave Description CHECK YOUR ANSWER
22.
Ā© 2010 Pearson
Education, Inc. Wave Motion Wave motion ā¢ Waves transport energy and not matter. Example: ā¢ Drop a stone in a quiet pond and the resulting ripples carry no water across the pond. ā¢ Waves travel across grass on a windy day. ā¢ Molecules in air propagate a disturbance through air.
23.
Ā© 2010 Pearson
Education, Inc. Wave Motion Wave speed ā¢ Describes how fast a disturbance moves through a medium ā¢ Related to frequency and wavelength of a wave Example: ā¢ A wave with wavelength 1 meter and frequency of 1 Hz has a speed of 1 m/s. Wave speed = frequency Ć wavelength
24.
Ā© 2010 Pearson
Education, Inc. A wave with wavelength 10 meters and time between crests of 0.5 second is traveling in water. What is the wave speed? A. 0.1 m/s B. 2 m/s C. 5 m/s D. 20 m/s Wave Speed CHECK YOUR NEIGHBOR
25.
Ā© 2010 Pearson
Education, Inc. A wave with wavelength 10 meters and time between crests of 0.5 second is traveling in water. What is the wave speed? A. 0.1 m/s B. 2 m/s C. 5 m/s D. 20 m/s Wave Speed CHECK YOUR ANSWER Explanation: So: period 1 Frequency = So: = 2 Hz 0.5 s 1 Frequency = Also: Wave speed = frequency Ć wavelength Wave speed = 2 Hz Ć 10 m = 20 m/s
26.
Ā© 2010 Pearson
Education, Inc. Transverse and Longitudinal Waves Two common types of waves that differ because of the direction in which the medium vibrates compared with the direction of travel: ā¢ longitudinal wave ā¢ transverse wave
27.
Ā© 2010 Pearson
Education, Inc. Transverse Waves Transverse wave ā¢ Medium vibrates perpendicularly to direction of energy transfer ā¢ Side-to-side movement Example: ā¢ Vibrations in stretched strings of musical instruments ā¢ Radio waves ā¢ Light waves ā¢ S-waves that travel in the ground (providing geologic information)
28.
Ā© 2010 Pearson
Education, Inc. The distance between adjacent peaks in the direction of travel for a transverse wave is its A. frequency. B. period. C. wavelength. D. amplitude. Transverse Waves CHECK YOUR NEIGHBOR
29.
Ā© 2010 Pearson
Education, Inc. The distance between adjacent peaks in the direction of travel for a transverse wave is its A. frequency. B. period. C. wavelength. D. amplitude. Explanation: The wavelength of a transverse wave is also the distance between adjacent troughs, or between any adjacent identical parts of the waveform. Transverse Waves CHECK YOUR ANSWER
30.
Ā© 2010 Pearson
Education, Inc. The vibrations along a transverse wave move in a direction A. along the wave. B. perpendicular to the wave. C. Both A and B. D. Neither A nor B. Transverse Waves CHECK YOUR NEIGHBOR
31.
Ā© 2010 Pearson
Education, Inc. The vibrations along a transverse wave move in a direction A. along the wave. B. perpendicular to the wave. C. Both A and B. D. Neither A nor B. Comment: The vibrations in a longitudinal wave, in contrast, are along (or parallel to) the direction of wave travel. Transverse Waves CHECK YOUR ANSWER
32.
Ā© 2010 Pearson
Education, Inc. Longitudinal Waves Longitudinal wave ā¢ Medium vibrates parallel to direction of energy transfer ā¢ Backward and forward movement consists of ā compressions (wave compressed) ā rarefactions (stretched region between compressions) Example: sound waves in solid, liquid, gas
33.
Ā© 2010 Pearson
Education, Inc. Longitudinal Waves Longitudinal wave Example: ā¢ sound waves in solid, liquid, gas ā¢ P-waves that travel in the ground (providing geologic information)
34.
Ā© 2010 Pearson
Education, Inc. The wavelength of a longitudinal wave is the distance between A. successive compressions. B. successive rarefactions. C. Both A and B. D. None of the above. Longitudinal Waves CHECK YOUR NEIGHBOR
35.
Ā© 2010 Pearson
Education, Inc. The wavelength of a longitudinal wave is the distance between A. successive compressions. B. successive rarefactions. C. Both A and B. D. None of the above. Longitudinal Waves CHECK YOUR ANSWER
36.
Ā© 2010 Pearson
Education, Inc. Wave Interference ā¢ Wave interference occurs when two or more waves interact with each other because they occur in the same place at the same time. ā¢ Superposition principle: The displacement due the interference of waves is determined by adding the disturbances produced by each wave.
37.
Ā© 2010 Pearson
Education, Inc. Wave Interference Constructive interference : When the crest of one wave overlaps the crest of another, their individual effects add together to produce a wave of increased amplitude. Destructive interference: When the crest of one wave overlaps the trough of another, the high part of one wave simply fills in the low part of another. So, their individual effects are reduced (or even canceled out).
38.
Ā© 2010 Pearson
Education, Inc. Wave Interference Example: ā¢ We see the interference pattern made when two vibrating objects touch the surface of water. ā¢ The regions where a crest of one wave overlaps the trough of another to produce regions of zero amplitude. ā¢ At points along these regions, the waves arrive out of step, i.e., out of phase with each other.
39.
Ā© 2010 Pearson
Education, Inc. Standing Waves ā¢ If we tie a rope to a wall and shake the free end up and down, we produce a train of waves in the rope. ā¢ The wall is too rigid to shake, so the waves are reflected back along the rope. ā¢ By shaking the rope just right, we can cause the incident and reflected waves to form a standing wave.
40.
Ā© 2010 Pearson
Education, Inc. Standing Waves ā¢ Nodes are the regions of minimal or zero displacement, with minimal or zero energy. ā¢ Antinodes are the regions of maximum displacement and maximum energy. ā¢ Antinodes and nodes occur equally apart from each other.
41.
Ā© 2010 Pearson
Education, Inc. Standing Waves ā¢ Tie a tube to a firm support. Shake the tube from side to side with your hand. ā¢ If you shake the tube with the right frequency, you will set up a standing wave. ā¢ If you shake the tube with twice the frequency, a standing wave of half the wavelength, having two loops results. ā¢ If you shake the tube with three times the frequency, a standing wave of one-third the wavelength, having three loops results.
42.
Ā© 2010 Pearson
Education, Inc. Standing Waves ā¢ Examples: ā Waves in a guitar string ā Sound waves in a trumpet
43.
Ā© 2010 Pearson
Education, Inc. Doppler Effect The Doppler effect also applies to light. ā¢ Increase in light frequency when light source approaches you ā¢ Decrease in light frequency when light source moves away from you ā¢ Starās spin speed can be determined by shift measurement
44.
Ā© 2010 Pearson
Education, Inc. Doppler Effect Doppler effect of light ā Blue shift ā¢ increase in light frequency toward the blue end of the spectrum ā Red shift ā¢ decrease in light frequency toward the red end of the spectrum Example: Rapidly spinning star shows a red shift on the side facing away from us and a blue shift on the side facing us.
45.
Ā© 2010 Pearson
Education, Inc. The Doppler effect occurs for A. sound. B. light. C. Both A and B. D. Neither A nor B. The Doppler Effect CHECK YOUR NEIGHBOR
46.
Ā© 2010 Pearson
Education, Inc. The Doppler effect occurs for A. sound. B. light. C. Both A and B. D. Neither A nor B. Explanation: The Doppler effect occurs for both sound and light. Astronomers measure the spin rates of stars by the Doppler effect. The Doppler Effect CHECK YOUR ANSWER
47.
Ā© 2010 Pearson
Education, Inc. Bow Waves Wave barrier ā¢ Waves superimpose directly on top of one another producing a āwallā. Example: bug swimming as fast as the wave it makes
48.
Ā© 2010 Pearson
Education, Inc. Bow Waves Supersonic ā¢ Aircraft flying faster than the speed of sound. Bow wave ā¢ V-shape form of overlapping waves when object travels faster than wave speed. ā¢ An increase in speed will produce a narrower V-shape of overlapping waves.
49.
Ā© 2010 Pearson
Education, Inc. Shock Waves Shock wave ā¢ Pattern of overlapping spheres that form a cone from objects traveling faster than the speed of sound.
50.
Ā© 2010 Pearson
Education, Inc. Shock Waves Shock wave (continued) ā¢ Consists of two cones. ā a high-pressure cone generated at the bow of the supersonic aircraft ā a low-pressure cone that follows toward (or at) the tail of the aircraft ā¢ It is not required that a moving source be noisy.
51.
Ā© 2010 Pearson
Education, Inc. Shock Waves Sonic boom ā¢ Sharp cracking sound generated by a supersonic aircraft ā¢ Intensity due to overpressure and underpressure of atmospheric pressure between the two cones of the shock waves ā¢ Produced before it broke the sound barrier Example: ā¢ supersonic bullet ā¢ crack of circus whip
Editor's Notes
C. It will remain the same.
C. It will remain the same.
A. increases.
A. increases.
C. 0.002 s
C. 0.002 s
A. 1/20 second.
A. 1/20 second.
D. 20 m/s
D. 20 m/s
C. wavelength.
C. wavelength.
B. perpendicular to the wave.
B. perpendicular to the wave.
C. Both A and B.
C. Both A and B.
C. both A and B.
C. both of the above.
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