Out of the given four waves (1), (2), (3) and | vedclass

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(C) For interference to occur,two waves must have a constant phase relationship.Wave $(2)$ is $y = a \sin(\omega t - kx)$ and wave $(4)$ is $y = a \co

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Source $S_2$ emits wave $(2)$ and $S_4$ emits wave $(4)$

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(C) For interference to occur,two waves must have a constant phase relationship.Wave $(2)$ is $y = a \sin(\omega t - kx)$ and wave $(4)$ is $y = a \cos(\omega t - kx) = a \sin(\omega t - kx + \pi/2)$.Since both waves $(2)$ and $(4)$ have the same frequency and travel in the same direction with a constant phase difference of $\pi/2$,they can produce a stable interference pattern.Similarly,waves $(1)$ and $(3)$ have a constant phase relationship,but among the given options,only the pair $(2)$ and $(4)$ is listed correctly as a valid combination for interference.

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