A point source `S` is placed at the bottom of a transparent block of height `10 mm` and refractive index `2.72`. It is immersed in a lower refractive index liquid as shwon in Fig. I tis found that the light emerging from the block to the liquid forms a circular bright spot of diameter `11.54 mm` on the top of the block. The refractive index of the liquid is

A point source S is placed at the bottom of a 12 mm high transparent block of diamond ( refractive index = 2.4 ) . The block is immersed in an optically rarer liquid as shown in the figure. It is found that the light emerging from the block to the liquid forms a circular bright spot of diameter 18 mm on the top of the block. What is the refractive index of the liquid ?

A spot is placed on the bottom of a slab made of transperent material of refractive index 1.5. The spot is viewed vertically from the top when it seems to be raised by 2 cm. Then, the height of the slab is

A convex lens is held 45 cm above the bottom of an empty tank. The image of a point at the bottom of a tank is formed 36 cm above the lens. Now, a liquid is poured into the tank to a depth of 40 cm. It is found that the distance of the image of the same point on the bottom of the tank is 48 cm above the lens. Find the refractive index of the liquid.

A rectangular block of glass ABCD has a refractive index 1.6 . A pin is placed midway on the face AB , Fig. When observed from the face AD , the pin shall. .

A point object O is placed at a distance of 20 cm is front of a equiconvex lens (.^(a)mu_(g) = 1.5) of focal length 10 cm. The lens is placed on a liquid of refractive index 2 as shown in figure. Image will be formed at a distance h from lens the value of h is

If a point source is placed at a depth h in a liquid of refractive index 4/3 . Find percentage of energy of light that escapes from liquid. (assuming 100% transmission of emerging light)

The speed of the yellow light in a certain liquid is 2.4 x 10 8 ms^-1 . Find the refractive index of the liquid.

A transparent cube of side d, made of a material of refractive index mu_(2) , is immersed in a liquid of refractive index mu_(1)(mu_(1)ltmu_(2)) . . A ray is incident on the face AV at an angle theta (shown in the figure). Total internal refraction takes place at point E on the face BC. Then must satisfy:

A transparent cube of side d, made of a material of refractive index mu_(2) , is immersed in a liquid of refractive index mu_(1)(mu_(1)ltmu_(2)) . . A ray is incident on the face AV at an angle theta (shown in the figure). Total internal refraction takes place at point E on the face BC. Then must satisfy:

A disc is placed on the surface of pond filled with liquid of refractive index (5)/(3) . A source of light is placed 4m below the surface of liquid. Calculate the minimum area of the disc so that light does not come out of liquid.