In the figure shown, `mu_(1) gt mu_(2) gt mu_(3)`. What are the limits of angle i so that it is neither get total internal reflection at AB nor at CD ?

In the figure shown, find ._(1)mu_2.

In the figure shown, mu_1gtmu_2. Find minimum value of i so that TIR never takes place at P.

The refractive index of the core of an optical fibre is mu_(2) and that of the cladding is mu_(1) .The angle of incidence on the face of the core so that the light ray just under goes total internal reflection at the cladding is

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 monochromatic light is incident on the plane interface AB between two media of refractive indices mu_(1) and (mu_(2)gtmu_(1)) at an angle of incidence theta as shown in Fig. The angle theta is infinitesimally greater than the critical angle for the two media so that total internal reflection takes place. Now, if a transparent slab DEFG of uniform thickness and of refractive index mu_(3) is introduced on the interface (as shown in the figure), show that for any value of mu_(3) all light will ultimately be reflected back into medium II.

There are three optical media 1,2 and 3 with their refractive index mu_(1) , mu_(2) and mu_(3) such that mu_(1)gtmu_(2)gtmu_(3) choose the correct options (TIR means total internal reflection)

Monochramatic light is incident on the pane interface AB between two media of refractive indices mu_1 and mu_2(mu_2gtmu_1) at an angle of incidence theta as shown in figure. The angle theta is infinitesimally greater thannte critical angle for the two media so thast total internal reflection takes place. Now, if a transparent slab DEFG of uniform thickness and of refractive inde mu_2 is introduced on theinterface (as shown in figure ) , show that for any value of mu_2 all light will ultimately be reflected back into medium II.

In the figure shown mu_(1),mu_(2),mu_(3),mu_(4) and mu_(5) are the refractive indices of the mediums 1,2,3,4 and 5 respectively. Consider the following: (1) mu_(1)=mu_(2) (2) mu_(3)=mu_(4)=mu_(5) (3) mu_(2) lt mu_(3) (4) mu_(4)gt mu_(5) Which of the above are correct?