Two thin similar watch glass pieces are...

Two thin similar watch glass pieces are joined together,front to front ,with near convex portion silvered and the combination of glass pieces is placed at a distance `a=60cm` from a screen.A small object is placed normal to the optical axis of the combination such that its image is two time the object. Now water is filled in between the glass. water`mu=4//3`,calculated the distance through,which the object must be displayed so that a sharp image is again formed on the screen.

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The correct Answer is:

15 cm towards the combination

Initially the system will act as simple concave mirror given

v = -60, m=-2 `implies u = -30`
`implies (1)/(v) + (1)/(u) = (1)/(f) implies (1)/(-60) - (1)/(30) = (1)/(f)`
f = -20 cm `implies` R = 40 cm
In second case : lens + mirror system
Then `P_("meq") = P_(L) + P_(L) + P_(M)`
`P_("meq")` = equivalent power of the mirror
`P_(L)` = power of the lens
`P_(M)` = power of the mirror
`P_("meq") = (1)/(f_(L)) + (1)/(f_(L)) + (-1)/(f_(M)) because (1)/(f_(L)) = ((1)/(3)) (2)/(R)`
`(1)/(f_(L)) = ((1)/(3)) (2)/(R) = (2 xx 2)/(3R) + ((-2)/(-R)) ((3)/(3))`
`P_("meq") = (10)/(3R) = (-1)/(f_(m)) implies f_("meq") = (-3R)/(10)`
`f_("eqm")= -12 cm`
Now if object is placed at distance = x then
`(1)/(v) + (1)/(u) = (1)/(f_("eq")), (because v = -60)`
`(1)/(-60) + (1)/(u) = (-1)/(12) implies (1)/(u) = (1)/(60) - (1)/(12) = (-4)/(50)`
`implies u = -15 cm`
So object displaced = 15 cm

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