In a midified YDESE, sources S is kept in front of slit `S_(1)`. Find the phase difference at point O that is equidistant from slits `S_(1)` and `S_(2)` and point P that is in front of slit `S_(1)` in the following situations. ltgt
Liquid is filled between the slit and source S.

While calculating path difference, it must be remembered that is is equal to difference of optical path lengths from sources S to point on the screen.
`:. Delta x_("total") = [Delta x]_("before slits") + [Delta x]_("after slits")`
` = (SS_(2) - SS_(1)) + (S_(2) P - S_(1) P)` ltbgt a. When liquid is filled between the slits and screen, then
`[S_(2) P]_("liquid") = [mu S_(2) P]_("air")`
`[S_(1) P]_("liquid") = [mu S_(1) P]_("air")`
At point O: `mu S_(2) O = mu S_(1) O`
Noth path difference is introduced after slits. So,
`Delta x_("total") = SS_(2) - SS_(1) = sqrt(d^(2) + X_(0)^(2)) - x_(0)`
Thus, phase diffenence,
`Delta phi = (2pi)/(lambda) (sqrt(d^(2) + X_(0)^(2)) - x_(0))`
At point P: [Delta x]_("before slits") = sqrt(d^(2) + x_(0)^(2)) - x_(0)`
`[Delta x]_("after slits") = mu S_(2) P - mu S_(1) ap = mu (S_(2)P - S_(1)P)`
`= (mu yd)/(D) = (mu d^(2))/(2 D)` (as y = (d)/(2))`
Thus phase difference,
`Delta phi = (2pi)/(lambda) [(sqrt(d^(2) + x_(0)^(2)) - x_(0)) + (mu d^(2))/(2 D)]`
b. When liquid is filled between the source and slits:
At point O: `(Delta x)_("before slits") = (SS_(2) + SS_(1))_("liquid")`
`(mu SS_(2) + mu SS_(1))_("air")`
`= mu (sqrt(d^(2) + x_(0)^(2)) - x_(0))`
`(Delta x)_("after slits") = S_(2) O + S_(1) O = 0`
`(Delta x)_("total") = mu (sqrt(d^(2) + x_(0)^(2)) - x_(0))`
Thus, phase differnce at P,
`Delta phi = (2pi)/(lambda) (mu sqrt(d^(2) + x_(0)^(2)) - x_(0))`
At point P: `(Delta x)_("before slits") = (SS_(2) + SS_(1))_("liquid") = (mu SS_(2) + mu SS_(1))_("air")`
`(Delta x)_("after slits") = (S_(2)P - S_(1)P)_("air") = (y d)/(D) = (d^(2))/(2D)`
`(Delta x)_("total") = [(mu sqrt(d^(2) + x_(0)^(2)) - x_(0)) + (d^(2))/(2D)]`
Thus, phase difference at P,
`Delta phi = (2 pi)/(lambda) [mu sqrt(D^(2) + x_(0)^(2)) - x_(0) + (d^(2))/(2D)]`