Light - Reflection and Refraction-MCQs

Explore Class 10 Science Chapter 9 – Light: Reflection and Refraction through 50 well-crafted True/False questions with answers and detailed explanations. Strengthen your understanding of mirrors, lenses, and image formation. Perfect for CBSE board exam preparation and quick concept revision.

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Light - Reflection and Refraction

by Academia Aeternum

1. Which of the following is a real image?
2. The image formed by a plane mirror is:
3. The radius of curvature (R) of a spherical mirror is 20 cm. What is its focal length (f)?
4. A ray parallel to the principal axis after reflection passes through:
5. For a convex mirror, the image formed is always:
6. When the object is at infinity, the image formed by a concave mirror is:
7. A concave mirror gives a real image of same size as the object when object is placed:
8. Magnification (m) produced by a mirror is given by:
9. If magnification is +1, the mirror is likely to be:
10. For a concave mirror, focal length is taken as:
11. Mirror formula is:
12. If object is placed at 10 cm in front of a concave mirror of f = 15 cm, image position will be:
13. If the image is formed on the screen, the image is:
14. Which type of mirror is used in a car’s rear-view mirror?
15. If the image is formed between F and P, it will be:
16. The bending of light when it passes from one medium to another is called:
17. When light travels from air to glass:
18. Refractive index (n) of a medium is defined as:
19. A convex lens is also called:
20. A concave lens always produces:
21. Principal focus of a concave lens is:
22. A ray passing through optical centre of a lens:
23. Lens formula is:
24. Magnification by a lens is given by:
25. A convex lens of focal length 10 cm forms a real image at 20 cm. The object is at:
26. Concave mirrors are used in:
27. Convex lenses are used in:
28. Which of the following is used by dentists to see enlarged image of teeth?
29. Which law of refraction relates angle of incidence and refraction?
30. For light from air to water, refractive index is greater than 1 because:
31. If refractive index of glass = 1.5, speed of light in glass is:
32. A convex lens of power +5 D has focal length:
33. The power of a concave lens of focal length 50 cm is:
34. When object is between F1 and O in a convex lens, image is:
35. When object is at infinity for convex lens:
36. Concave lens of focal length 15 cm ? rays appear to diverge from:
37. Unit of power of lens:
38. Image formed by concave mirror when object is beyond C:
39. Refraction occurs because:
40. A parallel beam after refraction through convex lens meets at:
41. If u = -30 cm and f = +10 cm for convex lens, find v:
42. A concave mirror with f = -15 cm, object at u = -10 cm ? image:
43. If m = +2, the image is:
44. When an object is placed at focus of convex lens, image is:
45. For concave mirror, object at focus ? image at:
46. The ratio of speed of light in air to water = 4/3. Then refractive index of water is:
47. Critical angle is:
48. Convex mirrors are preferred for rear-view because:
49. Power of a lens depends on:
50. Unit of focal length when power in dioptres:

Frequently Asked Questions

The law of reflection states that the angle of incidence is equal to the angle of reflection, and the incident ray, reflected ray, and the normal all lie in the same plane.

Regular reflection occurs on smooth surfaces and produces clear images, while diffused reflection occurs on rough surfaces, scattering light in all directions without forming a clear image.

It is the ratio of the speed of light in vacuum to its speed in a medium. It tells how much light bends when entering a medium.

Due to refraction, light bends when it moves from water to air, making the pencil appear bent or displaced at the surface.

Plane mirror – used in dressing mirrors; Concave mirror – used by dentists and in torches; Convex mirror – used in vehicle rear-view mirrors.

Refraction helps in lenses, spectacles, cameras, microscopes, rainbows, and apparent bending of submerged objects.

It is the distance between the pole (or optical center) and the focus where parallel rays of light converge or appear to diverge.

Mirror formula: \( \frac{1}{f} = \frac{1}{v} + \frac{1}{u} \); Magnification formula: \( m = \frac{h_i}{h_o} = -\frac{v}{u} \).

When light travels from a denser to a rarer medium and the angle of incidence exceeds the critical angle, it reflects completely within the denser medium.

Real images are formed when rays actually meet and can be projected; virtual images are formed when rays appear to meet and cannot be projected.

Concave lenses correct myopia (short-sightedness), while convex lenses are used in magnifiers, cameras, and microscopes.

Stars twinkle due to atmospheric refraction of their light; planets do not because they are closer and appear as extended light sources.

The power of a lens (P) is the reciprocal of its focal length (f in meters): \( P = \frac{1}{f} \); its SI unit is the diopter (D).

The light ray refracts twice and emerges parallel to the original ray but is laterally displaced.

Distances measured against the direction of incident light are positive, and those measured along it are negative. All distances are measured from the pole or optical center.

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