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Physics 101: Lecture 21, Pg 1 Physics 101: Lecture 21 Waves Exam 3 l Today’s lecture will cover Textbook Chapter 11.

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Presentation on theme: "Physics 101: Lecture 21, Pg 1 Physics 101: Lecture 21 Waves Exam 3 l Today’s lecture will cover Textbook Chapter 11."— Presentation transcript:

1 Physics 101: Lecture 21, Pg 1 Physics 101: Lecture 21 Waves Exam 3 l Today’s lecture will cover Textbook Chapter 11

2 Physics 101: Lecture 21, Pg 2 Preflight 5 Which concepts did you find the most difficult when preparing for this lecture? Superposition and interference Waves and wave motion in general are difficult for me to grasp… Overtones…

3 Physics 101: Lecture 21, Pg 3 Waves Overview l Types l Speed l Harmonic l Superposition l Standing 05

4 Physics 101: Lecture 21, Pg 4 Types of Waves l Longitudinal: The medium oscillates in the same direction as the wave is moving è Sound è Slinky demo l Transverse: The medium oscillates perpendicular to the direction the wave is moving. è Water (more or less) è Slinky demo 8 “Understanding all the different kinds of waves.” “I have a hard time visualizing what a period is.”

5 Physics 101: Lecture 21, Pg 5 Slinky Preflight 3 Suppose that a longitudinal wave moves along a Slinky at a speed of 5 m/s. Does one coil of the slinky move through a distance of five meters in one second? 1. Yes 2. No 5 m/s isn't the distance one coil moves, its how fast the wave moves correct 5m 12 totally guessing here, but I LOVE SLINKYS!!

6 Physics 101: Lecture 21, Pg 6 Velocity of Waves Act 17 A spring and slinky are attached and stretched. Compare the speed of the wave pulse in the slinky with the speed of the wave pulse in the spring. A) v slinky > v spring B) v slinky = v spring C) v slinky < v spring Slinky stretches more, so it has a smaller mass/length 

7 Physics 101: Lecture 21, Pg 7 Harmonic Waves Wavelength Wavelength: The distance between identical points on the wave. Amplitude: The maximum displacement A of a point on the wave. Amplitude A A 20 y(x,t) = A cos(  t –kx) Angular Frequency  :  = 2  f x y Wave Number k: k = 2  / Recall: f = v / “the weird/new symbols get me confused i never know what they represent “

8 Physics 101: Lecture 21, Pg 8 Period and Velocity l Period: The time T for a point on the wave to undergo one complete oscillation. Speed: The wave moves one wavelength in one period T so its speed is v =  / T. 22

9 Physics 101: Lecture 21, Pg 9 Harmonic Waves Exercise y(x,t) = A cos(  t –kx) Label axis and tic marks if the graph shows a snapshot of the wave y(x,t) = 2 cos(4t –2x) at x=0. Recall: T = 2  /  t +2 -2 T = 2     / 2  /4  /4 25

10 Physics 101: Lecture 21, Pg 10 Preflight 1+2 Suppose a periodic wave moves through some medium. If the period of the wave is increased, what happens to the wavelength of the wave assuming the speed of the wave remains the same? 1. The wavelength increases 2. The wavelength remains the same 3. The wavelength decreases correct = v T 26

11 Physics 101: Lecture 21, Pg 11 l The wavelength of microwaves generated by a microwave oven is about 3 cm. At what frequency do these waves cause the water molecules in your burrito to vibrate ? (a) 1 GHz (b) 10 GHz (c) 100 GHz 1 GHz = 10 9 cycles/sec The speed of light is c = 3x10 8 m/s ACT 29

12 Physics 101: Lecture 21, Pg 12 Recall that v = f. 1 GHz = 10 9 cycles/sec The speed of light is c = 3x10 8 m/s HH O Makes water molecules wiggle ACT Solution 30

13 Physics 101: Lecture 21, Pg 13 Absorption coefficient of water as a function of frequency. f = 10 GHz Visible “water hole” 31

14 Physics 101: Lecture 21, Pg 14 Interference and Superposition l When two waves overlap, the amplitudes add. è Constructive: increases amplitude è Destructive: decreases amplitude 34

15 Physics 101: Lecture 21, Pg 15 Reflection Act l A slinky is connected to a wall at one end. A pulse travels to the right, hits the wall and is reflected back to the left. The reflected wave is A) InvertedB) Upright è Fixed boundary reflected wave inverted è Free boundary reflected wave upright 37 I don't understand the picture with free boundary versus fixed boundary

16 Physics 101: Lecture 21, Pg 16 Standing Waves Fixed Endpoints l Fundamental n=1 (2 nodes) n = 2L/n l f n = n v / (2L) 44 I did not really understand what the point or meaning of the fundamental frequency was.

17 Physics 101: Lecture 21, Pg 17 Standing Waves: f 1 = fundamental frequency (lowest possible) L  / 2 f = v /  tells us v if we know f ( frequency ) and  wavelength) 48 A guitar’s E-string has a length of 65 cm and is stretched to a tension of 82N. If it vibrates with a fundamental frequency of 329.63 Hz, what is the mass of the string? v = f = 2 (0.65 m) (329.63 s -1 ) = 428.5 m/s v 2 = T /   = T / v 2 m= T L / v 2 = 82 (0.65) / (428.5) 2 = 2.9 x 10 -4 kg

18 Physics 101: Lecture 21, Pg 18Summary l Wave Types è Transverse (eg pulse on string, water) è Longitudinal (sound, slinky) l Harmonic  y(x,t) = A cos(  t –kx) or A sin(  t – kx) l Superposition è Just add amplitudes l Reflection (fixed point inverts wave) l Standing Waves (fixed ends)  n = 2L/n è f n = n v / 2L 50

19 Physics 101: Lecture 21, Pg 19 Practice Problems Chapter 11, probs 1, 9, 13, 15, 17, 21, 25, 29, 31, 33, 49, 57, 61, 65 (hard!), 77 (hard!)

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