An isosceles prism of angle 120° has a refractive index of 1.44. Two parallel
monochromatic rays enter the prism parallel to each other in air as shown. The rays
emerging from the opposite faces :
1. Are parallel to each other
2. Are diverging
3. Make an angle with each other
4. Make an angle with each other
A ray of light is incident on the hypotenuse of a right-angled prism after travelling parallel
to the base inside the prism. If is the refractive index of the material of the prism, the
maximum value of the base angle for which light is totally reflected from the hypotenuse
is
1.
2.
3.
4.
A plano-convex lens when silvered in the plane side behaves like a concave mirror of
focal length 30 cm. However, when silvered on the convex side it behaves like a concave
mirror of focal length 10 cm. Then the refractive index of its material will be
1. 3.0
2. 2.0
3. 2.5
4. 1.5
A ray of light travels from an optically denser to rarer medium. The critical angle for the
two media is C. The maximum possible deviation of the ray will be
1.
2. 2C
3.
4.
1. | \(5\) cm/sec towards the mirror |
2. | \(4\) cm/sec towards the mirror |
3. | \(4\) cm/sec away from the mirror |
4. | \(9\) cm/sec away from the mirror |
A room (cubical) is made of mirrors. An insect is moving along the diagonal on the floor
such that the velocity of image of insect on two adjacent wall mirrors is . The
velocity of image of insect in ceiling mirror is
1. 10
2. 20
3.
4.
Figure shows a cubical room ABCD with the wall CD as a plane mirror. Each side of the
room is 3m. We place a camera at the midpoint of the wall AB. At what distance should
the camera be focussed to photograph an object placed at A
1. 1.5 m
2. 3 m
3. 6 m
4. More than 6 m
If an object moves towards a plane mirror with a speed v at an angle to the perpendicular to the plane of the mirror, find the relative velocity between the object and the image
1. v
2. 2v
3. 2v cos
4. 2v sin
To an astronaut in a spaceship, the sky appears:
(1) Black
(2) White
(3) Green
(4) Blue
A beam of light from a source L is incident normally on a plane mirror fixed at a certain distance x from the source. The beam is reflected back as a spot on a scale placed just above the source L. When the mirror is rotated through a small angle , the spot of light is found to move through a distance y on the scale. The angle is given by
(1)
(2)
(3)
(4)