There is a slab of refractive index n(2)...

There is a slab of refractive index `n_(2)` placed as shown. Medium on two side are `n_(1)` and `n_(3)`. Width of slab is `d_(2)`. An object is placed at distance `d_(1)` from surface `AB` and observer is at distance `d_(3)` from surface `CD`. Given `n_(1)=` air [ref. index =1] and `n_(2)` is glass [ref. index `= 3//2`], `d_(1) = 12 cm` and `d_(2) = 9 cm,d_(3) = 4 cm`.

If object starts to move with speed of `12 cm//sec` towards the slab then find the speed of image as seen by observer [given `n_(3)=` air =(ref. index `=1`)].

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There is a slab of refractive index n_(2) placed as shown. Medium on two side are n_(1) and n_(3) . Width of slab is d_(2) . An object is placed at distance d_(1) from surface AB and observer is at distance d_(3) from surface CD . Given n_(1)= air [ref. index =1 ] and n_(2) is glass [ref. index = 3//2 ], d_(1) = 12 cm and d_(2) = 9 cm,d_(3) = 4 cm . If n_(3) = (4)/(3) and object start to move towards the slab with speed of 12 m//sec then speed of image s :

There is a slab of refractive index n_(2) placed as shown. Medium on two side are n_(1) and n_(3) . Width of slab is d_(2) . An object is placed at distance d_(1) from surface AB and observer is at distance d_(3) from surface CD . Given n_(1)= air [ref. index =1 ] and n_(2) is glass [ref. index = 3//2 ], d_(1) = 12 cm and d_(2) = 9 cm,d_(3) = 4 cm . If n_(3)= (4)/(4) then distance of image of object seen by oberver is :

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