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Chapter 17: Linear Superposition and Interference  In Chap. 16, we considered the motion of a single wave in space and time  What if there are two waves.

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Presentation on theme: "Chapter 17: Linear Superposition and Interference  In Chap. 16, we considered the motion of a single wave in space and time  What if there are two waves."— Presentation transcript:

1 Chapter 17: Linear Superposition and Interference  In Chap. 16, we considered the motion of a single wave in space and time  What if there are two waves present simultaneously – in the same place and time  Let the first wave have 1 and T 1, while the second wave has 2 and T 2  The two waves (or more) can be added to give a resultant wave  this is the Principle of Linear Superposition  Consider the simplest example: 1 = 2

2  Since both waves travel in the same medium, the wave speeds are the same, then T 1 =T 2  We make the additional condition, that the waves have the same phase – i.e. they start at the same time  Constructive Interference  The waves have A 1 =1 and A 2 =2. Here the sum of the amplitudes A sum =A 1 +A 2 = 3 A1A1 A2A2 Sum

3  If the waves ( 1 = 2 and T 1 =T 2 ) are exactly out of phase, i.e. one starts a half cycle later than the other  Destructive Interference  If A 1 =A 2, we have complete cancellation: A sum =0 A1A1 A2A2 sum  These are special cases. Waves may have different wavelengths, periods, and amplitudes and may have some fractional phase difference.

4  Here are a few more examples: exactly out of phase (  ), but different amplitudes  Different amplitudes, but out of phase by (  /2)

5 Example: Problem 17.9 Speakers A and B are vibrating in phase. They are directed facing each other, are 7.80 m apart, and are each playing a 73.0-Hz tone. The speed of sound is 343 m/s. On a line between the speakers there are three points where constructive interference occurs. What are the distances of these three points from speaker A? Solution: Given: f A =f B =73.0 Hz, L=7.80 m, v=343 m/s

6 x is the distance to the first constructive interference point The next point (node) is half a wave-length away. Where n=0,1,2,3,… for all nodes

7 Behind speaker A   Speaker A B A1A1 A2A2 sum xx

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