[" 2) - 16"12;2" is "],[" sepprates two media "A" and "B" of refactive indices "mu_(1)=1.5" and "mu],[" ray of light travels from "A" to "B" .Its directions in the two media are given by "],[" thichd "a" ."]

The x-z plane separates two media A and B of refractive indices mu_(1) = 1.5 and mu_(2) = 2 . A ray of light travels from A to B. Its directions in the two media are given by unit vectors u_(1) = a hat(i)+b hat(j) and u_(2) = c hat(i) +a hat(j) . Then

The x-z plane separates two media A and B of refractive indices mu_(1) = 1.5 and mu_(2) = 2 . A ray of light travels from A to B. Its directions in the two media are given by unit vectors u_(1) = a hat(i)+b hat(j) and u_(2) = c hat(i) +a hat(j) . Then

The x-z plane separates two media A and B of refractive indices mu_(1)=1.5 and mu_(2)=2 . A ray of light travels from A to B its direction in the two media are given by unit vectors vec(u)_(1)=a hat(i) + b hat(j) and vec(u)_(2)= chat(i)+dhat(j) Then

The xz plane separates two media A and B with refractive indices mu_(1) & mu_(2) respectively. A ray of light travels from A to B . Its directions in the two media are given by the unut vectors, vec(r)_(A)=a hat i+ b hat j & vec(r)_(B) alpha hat i + beta hat j respectively where hat i & hat j are unit vectors in the x & y directions. Then :

The xz plane separates two media A and B with refractive indices mu_(1) & mu_(2) respectively. A ray of light travels from A to B . Its directions in the two media are given by the unut vectors, vec(r)_(A)=a hat i+ b hat j & vec(r)_(B) alpha hat i + beta hat j respectively where hat i & hat j are unit vectors in the x & y directions. Then :

The xz plane separates two media A and B with refractive indices mu_(1) & mu_(2) respectively. A ray of light travels from A to B . Its directions in the two media are given by the unit vectors, vec(r)_(A)=a hat i+ b hat j & vec(r)_(B)= alpha hat i + beta hat j respectively where hat i & hat j are unit vectors in the x & y directions. Then :