The superposition of two waves y1=A sin(kx-wt) and y2=A sin(kx-wt+p) results in a wave described by: y=0.3 sin(kx- wt+rt/3) where x and y are in meters and t in seconds.The amplitude A of y1 and y2...


The superposition of two waves y1=A<br>sin(kx-wt) and y2=A sin(kx-wt+p) results<br>in a wave described by: y=0.3 sin(kx-<br>wt+rt/3) where x and y are in meters and t<br>in seconds.The amplitude A of y1 and y2<br>and the phase difference p are:<br>A=0.3 m,p=n/3 rad<br>A=0.3m,p=2 n/3 rad<br>A=0.15 m,p=2n/3 rad<br>O A=0.15 m,p=n/3 rad<br>O None of the above<br>

Extracted text: The superposition of two waves y1=A sin(kx-wt) and y2=A sin(kx-wt+p) results in a wave described by: y=0.3 sin(kx- wt+rt/3) where x and y are in meters and t in seconds.The amplitude A of y1 and y2 and the phase difference p are: A=0.3 m,p=n/3 rad A=0.3m,p=2 n/3 rad A=0.15 m,p=2n/3 rad O A=0.15 m,p=n/3 rad O None of the above

Jun 05, 2022
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