In a thick glass slab of thicknes l, and refractive index `n_(1)`, a cuboidal cavity of thickness 'm' is carved as shown in figure, and is filled with a liquid of `R.I. n_(2)(n_(1)gtn_(2)).` The ratio `l//m`, so that shift produced by this slab is zero when an observer A observes an object B with paraxial rays is

A transparent thin film of uniform thickness and refractive index n_(1) =1.4 is coated on the convex spherical surface of radius R at one end of a long solid glass cylinder of refractive index n_(2) =1.5 , as shown in the figure. Rays of light parallel to the axis of the cylinder traversing through the film from air to glass get focused at distance f_(1) from the film, while rays of light traversing from glass to air get focused at distance f_(2) from the film, Then

A slab of glass, of thickness 6 cm and refractive index mu =1.5 is placed in front of a concave mirror as shown in the figure. If the radius of curvature of the mirror is 40 cm and the reflected image coincides with the object, then the distance of the object from the mirror is

A glass sphere of radius 2R and refractive index n has a spherical cavity of radius R, concentric with it. Q. When viewer is ono left side of the hollow sphere, what will be the shift in position of the object?

There is a spherical glass ball of refractive index mu_(1) and another glass ball of refractive index mu_(2) inside as shown in figure . The radius of the outer ball is R_(1) and that of inner ball is R_(2) . A ray is incident on outer surface of the ball at an angle i_(1) , Find the value of r_(2)

There is a spherical glass ball of refractive index mu_(1) and another glass ball of refractive index mu_(2) inside as shown in figure . The radius of the outer ball is R_(1) and that of inner ball is R_(2) . A ray is incident on outer surface of the ball at an angle i_(1) , Find the value of r_(1)

A glass sphere of radius 2R and refractive index n has a spherical cavity of radius R, concentric with it. Q. When viewer is on right side of the hollow sphere, what will be apparent change in position of the object?

A transparent slab of thickness d has a refractive index n(z) that increases with z. Here z is the vertical distance inside the slab, measured from the top. The slab is placed between two media with uniform refractive indices n_(1) and n_(2)(gtn_(1)) , theta_(0) , from medium 1 and emerges in medium 2 with refraction angle theta_(t) with a lateral displacement l. Which of the following statement(s) is (are) true?

In YDSE, a glass slab of refractive index, mu= 1.5 and thickness 'l' is introduced in one of the interfening beams of wavelength lambda = 5000 A . If on introducing the slab, the central fringe shift by 2 mm, then thickness of stab would be (Fringe width, beta = 0.2 mm)

A glass slab of thickness 2cm and refractive index 2 is placed in contact with a biconvex lens of focal length 20cm. The refractive index of the material of the lens 1.5 . The far side of the lens is silvered. Where should an object be placed in front of the slab so that it images on to itself?

There is a spherical glass ball of refractive index mu_(1) and another glass ball of refractive index mu_(2) inside as shown in figure . The radius of the outer ball is R_(1) and that of inner ball is R_(2) . A ray is incident on outer surface of the ball at an angle i_(1) , Find the value of i_(2)