y(mm) 3 2 1 0 s(x, t = 0.005s) s(x, t = 0s) x(m) -1 -2 -3 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 42. Consider the graph in the preceding problem of a compression wave. Shown are snapshots of the wave function for t = 0.000 s (blue) and t = 0.005 s (orange). Given that the displacement of the molecule at time t 0.00 s and position x = 0.00 m is s (0.00 m, 0.00 s) = 1.08 mm, derive a wave function to model the compression = wave.
y(mm) 3 2 1 0 s(x, t = 0.005s) s(x, t = 0s) x(m) -1 -2 -3 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 42. Consider the graph in the preceding problem of a compression wave. Shown are snapshots of the wave function for t = 0.000 s (blue) and t = 0.005 s (orange). Given that the displacement of the molecule at time t 0.00 s and position x = 0.00 m is s (0.00 m, 0.00 s) = 1.08 mm, derive a wave function to model the compression = wave.
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![s(x, t = 0.005s)
s(x, t = 0s)
y(mm)4
3
2
1
0
-1
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0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
x(m)
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42. Consider the graph in the preceding problem of a compression wave. Shown are
snapshots of the wave function for t 0.000 s (blue) and t 0.005s (orange). Given
that the displacement of the molecule at time t 0.00 s and position x 0.00 m is
=
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s (0.00 m, 0.00 s) = 1.08 mm, derive a wave function to model the compression
wave.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fbbda4df7-201f-4a41-8b8d-8c3b1187a403%2Fab5c55dd-9917-448a-8129-5c16ca00832f%2Fl8bu15b_processed.png&w=3840&q=75)
Transcribed Image Text:s(x, t = 0.005s)
s(x, t = 0s)
y(mm)4
3
2
1
0
-1
-2
-3+
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
x(m)
=
=
42. Consider the graph in the preceding problem of a compression wave. Shown are
snapshots of the wave function for t 0.000 s (blue) and t 0.005s (orange). Given
that the displacement of the molecule at time t 0.00 s and position x 0.00 m is
=
-
s (0.00 m, 0.00 s) = 1.08 mm, derive a wave function to model the compression
wave.
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