(a) At t = 0, a wave traveling to the right at 2 m/s, shown below. What does the displacement at x = 6 look like as a function of time? D(x, t) 0 D(r, t) x=2cm 2 0 3 (b) The graph shows the displacement at a point x = 2 cm for a transverse wave traveling to the right at 2 cm/s. If we take a picture of the wave at t = 2 s, what will it look like? (plot D(x, t) vs x here) T2 130 3 5 4 -10 5 x 6
(a) At t = 0, a wave traveling to the right at 2 m/s, shown below. What does the displacement at x = 6 look like as a function of time? D(x, t) 0 D(r, t) x=2cm 2 0 3 (b) The graph shows the displacement at a point x = 2 cm for a transverse wave traveling to the right at 2 cm/s. If we take a picture of the wave at t = 2 s, what will it look like? (plot D(x, t) vs x here) T2 130 3 5 4 -10 5 x 6
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Transcribed Image Text:(a) At t = 0, a wave traveling to the right at 2 m/s, shown below. What does the
displacement at x = 6 look like as a function of time?
D(x, t)
0
D(r, t)
x=2cm
2
0
3
(b) The graph shows the displacement at a point x = 2 cm for a transverse wave traveling
to the right at 2 cm/s. If we take a picture of the wave at t = 2 s, what will it look
like? (plot D(x, t) vs x here)
T2
130
3
5
4
-10
5
x
6
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