An object is placed in front of a concave mirror. The distance of the object from the focus is 10 cm and the distance of the image from the focus is 40 cm, then the focal length mirror is :
(1) 20 cm
(2) 10 cm
(3) 40 cm
(4) 30 cm
If the critical angle for a liquid A is 60 and critical angle for the liquid B is 45, then the critical angle for a ray traveling from A to B will be
(1) Less than 45
(2) More than 60
(3) Between 45 and 60
(4) Does not exist
If the plane surface of a planoconvex lens is silvered, then it will behave as :
(1) Converging mirror
(2) Diverging mirror
(3) Plane mirror
(4) May behave as (1) or (2)
Chromatic aberration of a lens can be corrected by
(1) Reducing its apperture
(2) Proper polishing of its surfaces
(3) Suitable combining it with another lens
(4) Providing different suitable curvature to its surfaces
1. | The effective focal length is \(15\) cm. |
2. | Chromatic aberration is minimized. |
3. | Combination behaves like a convergent lens. |
4. | All of these. |
A plane mirror is placed at the bottom of a fish tank filled with water of refractive index . The fish is at a height 10 cm above the plane mirror. An observer O is situated vertically above the fish outside. The apparent distance between fish and its image for the observer is-
1. 15 cm
2. 30 cm
3. 35 cm
4. 45 cm
If one surface of a biconvex lens is silvered, then it behaves as
(1) A concave mirror of focal length
(2) A concave mirror of focal length
(3) A convex mirror of focal length
(4) A concave mirror of focal length
An astronomical telescope has an angular magnification of 20 in its normal adjustment. The focal length of the eyepiece is 4 cm. Distance between objective and eyepiece is :
1. 80 cm
2. 84 cm
3. 76 cm
4. 90 cm
A liquid of refractive index is placed between two identical planoconvex-lenses touching each other at their spherical surfaces of radius R. If the refractive index of the lens is 1.50, then the lens behaves
(1) Convergent with power P=
(2) Convergent with power P=
(3) Divergent with power P=
(4) Divergent with power P=
The thickness of a plano-convex glass lens in the middle is 1.5 cm. Viewing from the flat side the thickness of the lens at the centre will appear (refractive index of glass is 1.5) to be
1. 1.5 cm
2. 1.0 cm
3. 2 cm
4. 0.5 cm