Part 2 A standing wave is given by E = 200 sin( 3.14 x) cos(9.42 t). Two waves E₁ and E₂ can be superimposed to generate this standing wave. a) E₁ = b) E₂= Determine the wave E₁ as per the below: sin( t) x = Determine the wave E2 as per the below: sin( t) c) The wavelength of this wave is 2 m. For x ≥ 0, what is the location of the antinode having the smallest value of x? x- m x +
Part 2 A standing wave is given by E = 200 sin( 3.14 x) cos(9.42 t). Two waves E₁ and E₂ can be superimposed to generate this standing wave. a) E₁ = b) E₂= Determine the wave E₁ as per the below: sin( t) x = Determine the wave E2 as per the below: sin( t) c) The wavelength of this wave is 2 m. For x ≥ 0, what is the location of the antinode having the smallest value of x? x- m x +
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Transcribed Image Text:Part 2
A standing wave is given by E = 200 sin( 3.14 x) cos(9.42 t). Two waves E₁ and E₂ can be
superimposed to generate this standing wave.
a)
E₁ =
b)
E₂=
Determine the wave E₁ as per the below:
sin(
t)
x =
Determine the wave E2 as per the below:
sin(
t)
c)
The wavelength of this wave is 2 m. For x ≥ 0, what is the location of the antinode having
the smallest value of x?
x-
m
x +
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