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How do we describe this? 10. Wave Motion. An initial shape… …so can we just let the normal modes oscillate at  n ? No! Because that initial shape can.

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Presentation on theme: "How do we describe this? 10. Wave Motion. An initial shape… …so can we just let the normal modes oscillate at  n ? No! Because that initial shape can."— Presentation transcript:

1 How do we describe this? 10. Wave Motion

2 An initial shape… …so can we just let the normal modes oscillate at  n ? No! Because that initial shape can do many things: 0 L To get the answer right, we have to get all the boundary conditions right!

3 Wave equation needs two spatial and two temporal boundary conditions. Clamped string: y(0,t) = 0 “a certain point in space for all time” y(L,t) = 0 Two spatial boundary conditions Two temporal boundary conditions Initial shape: y(x,0) = “a certain point in time for all space” rather than an analogous second point in time (which could work), try this: Initial velocity:

4 The velocities tell you how the normal modes move with different phase offset. But don’t do it this way!!!

5 French’s Fourier series! (spatial boundary conditions) Initially at rest? Then A n = 0

6

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