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M(1) and M(2) are plane mirrors and kept...

`M_(1)` and `M_(2)` are plane mirrors and kept parallel to each other. At point O, there will be a maxima for wavelength `lambda`. Light from a monochromatic sources S of wavelength `lambda` is not reaching directly on the screen. Then, `lambda` is

A

`(3d^(2))/(D)`

B

`(3d^(2))/(2D)`

C

`(d^(2))/(D)`

D

`(2d^(2))/(D)`

Text Solution

Verified by Experts

The correct Answer is:
B

For reflected light waves the two virtual source (images of source in mirror) at a distance 3d
path difference at `O=S_(2)O-S_(1)O`
`sqrt(D^(2)+(2d)^(2))-sqrt(D^(2)+d^(2))=lamda`
`impliesD^(2)+4d^(2)=D^(2)+d^(2)+lamda^(2)+2sqrt(D^(2)+d^(2))lamda`
`implies3d^(2)=2Dlamdaimplieslamda=(3d^(2))/(2D)`
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