364992 A light ray falls on a glass surface of refractive index \(\sqrt 3 \) , at an angle 60°. The angle between the refracted and reflected rays would be

364993 Assertion :
There is no dispersion of light refracted through a rectangular glass slab.
Reason :
Light is completely absorbed by glass slab.

364994 A ray of light is incident on a medium with angle of incidence \(i\) and refracted into a second medium with angle of refraction \(r\). The graph of sin(\(i\)) vs sin(\(r\)) is as shown in figure. Then, the velocity of light in the first medium is \(n\) times the velocity of light in the second medium. What should be the value of \(n\)?

364995 A ray of light passes from vacuum into a medium of refractive index \(\mu\), the angle of incidence is found to be twice the angle of refraction. Then the angle of incidence is

364992 A light ray falls on a glass surface of refractive index \(\sqrt 3 \) , at an angle 60°. The angle between the refracted and reflected rays would be

364993 Assertion :
There is no dispersion of light refracted through a rectangular glass slab.
Reason :
Light is completely absorbed by glass slab.

364994 A ray of light is incident on a medium with angle of incidence \(i\) and refracted into a second medium with angle of refraction \(r\). The graph of sin(\(i\)) vs sin(\(r\)) is as shown in figure. Then, the velocity of light in the first medium is \(n\) times the velocity of light in the second medium. What should be the value of \(n\)?

364995 A ray of light passes from vacuum into a medium of refractive index \(\mu\), the angle of incidence is found to be twice the angle of refraction. Then the angle of incidence is

364992 A light ray falls on a glass surface of refractive index \(\sqrt 3 \) , at an angle 60°. The angle between the refracted and reflected rays would be

364993 Assertion :
There is no dispersion of light refracted through a rectangular glass slab.
Reason :
Light is completely absorbed by glass slab.

364994 A ray of light is incident on a medium with angle of incidence \(i\) and refracted into a second medium with angle of refraction \(r\). The graph of sin(\(i\)) vs sin(\(r\)) is as shown in figure. Then, the velocity of light in the first medium is \(n\) times the velocity of light in the second medium. What should be the value of \(n\)?

364995 A ray of light passes from vacuum into a medium of refractive index \(\mu\), the angle of incidence is found to be twice the angle of refraction. Then the angle of incidence is

364992 A light ray falls on a glass surface of refractive index \(\sqrt 3 \) , at an angle 60°. The angle between the refracted and reflected rays would be

364993 Assertion :
There is no dispersion of light refracted through a rectangular glass slab.
Reason :
Light is completely absorbed by glass slab.

364994 A ray of light is incident on a medium with angle of incidence \(i\) and refracted into a second medium with angle of refraction \(r\). The graph of sin(\(i\)) vs sin(\(r\)) is as shown in figure. Then, the velocity of light in the first medium is \(n\) times the velocity of light in the second medium. What should be the value of \(n\)?

364995 A ray of light passes from vacuum into a medium of refractive index \(\mu\), the angle of incidence is found to be twice the angle of refraction. Then the angle of incidence is