A travelling wave represented by y=Asi...

A travelling wave represented by
`y=Asin (omegat-kx)`
is superimposed on another wave represented by
`y=Asin(omegat+kx).` The resultant is

A

A standing wave having nodes at `x=(n+(1)/(2))(lamda)/(2),n=0,1,2`

B

A wave travelling along + x direction

C

A wave travelling along -x direction

D

A standing wave having nodes at `x = (n lamda)/(2) , n=0,1,2`

Text Solution

Verified by Experts

The correct Answer is:

A

`y_(1)=Asin(wt-kx)&y_(2)=Asin(wt-kx)`
By superposition principle
`y = y_(1) +y_(2)`
`=A sin (wt-kx)+A sin (wt +kx)`
`=2A sin wt cos kx`
Amplitude = 2A cos kx
At nodes displacement is minimum
`2A coc kx =0 rArr cos kx =0`
`kx = (2n+1) (pi)/(2) rArr (2pi)/(2)x=(2n+1)(pi)/(2)`
`x =(2n+1)(pi)/(4)` where `n =0,1,2`

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