CHAPTER AT A GLANCE
1. Ray of light: A line drawn in the direction of propagation of light is called a ray of light.
2. Beam of light: A group of rays of light emitted by a source of light is called a beam of light. A light beam is of three types.
- (i) Parallel beam: A group of light rays parallel to each other is known as parallel beam of light.
- (ii) Divergent beam: A group of light rays spreading out from a source of light is called divergent beam of light.
- (iii) Convergent beam: A group of light rays meeting at a point is called convergent beam of light.
3. Reflection of light: There are some surfaces which have ability to send the light back in the same medium when light strikes it. This phenomena of sending the light back in the same medium by a surface is called reflection of light.
Laws of reflection
- The incident ray, the reflected ray and the normal at the point of incidence, all lie in a same plane.
- The angle of incidence is always equal to the angle of reflection, Li= Lr.
4. Image: When light rays meet or appear to meet after reflection from a mirror, then it is called an image.
- Real image: It is a kind of image which is formed by actual intersection of light rays after reflection.
- Virtual image: It is a kind of image which is formed by producing the reflected rays backward after reflection.
5. Plane mirror: Plane mirror is a piece of glass whose one side is polished by
using silver paint, which is covered by a coating of red paint to protect the silver layer.
6. Spherical mirrors: It is part of hollow glass sphere whose one surface is polished. There are two types of spherical mirror:
- Concave mirror: It is a spherical mirror whose outer surface is polished and inner or concave side is reflecting surface.
- Convex mirror: It is a spherical mirror whose inner is polished and outer side or convex side is the reflecting surface.
7. Principal focus: A point on the principal axis of a spherical mirror where the rays of light parallel to the principal axis meet or appear to meet after reflection from the mirror.
8. Focal length: The distance between the pole (P) and principal focus (f) ofa
spherical mirror is called the focal length of the mirror. It is denoted by£
9. Uses of concave mirror:
- It is used as a shaving mirror because when it is placed close to the face, it forms a large image.
- It is used in solar heating devices like solar cooker because it converges Sun’s rays over a small area to produce high temperature.
- It is used for security checking purposes.
10. Uses of convex mirror
- It is used as rear view mirror in automobiles because it gives an erect as well as diminished image due to which it has wider field of view.
- It is also used in street lights.
11. Mirror formula: It is a relation between distance of object, distance ofimage from the pole of the mirror and its focal length, i.e., relation between ‘u’, ‘v’ and ‘f’. It is given by-
12. Magnification: It is defined as the ratio of height of image to the height of the object. It is denoted by letter ‘m’.
13. Refraction of Light: The bending of ray of light when it passes from one medium to another is called refraction of light.
Laws of refraction:
- The incident ray, the refracted ray and the normal at the point of incidence all lie in the same plane.
- When a ray of light undergoes refraction then the ratio of sine of angle of incidence to the sine of angle of refraction is constant.
14. Refractive index: The refractive index of medium 2 with respect to medium 1 is given by the ratio of the speed of light in medium 1 and the speed of light in medium 2. This is usually represented by the symbol n21. This can be expressed in an equation form as-
15. Refraction by spherical lenses: Lens is a transparent medium which is formed by joining two pieces of spherical glass. There are two types of lenses:
- Convex lens: It is a lens which is thicker at the centre and thinner at the edges.
- Concave lens: It is a lens which is thinner at the centre and thicker at the edges.
16. Terms related to a lens
- Optical centre of lens: It is the centre of the lens through which light can pass without any deviation.
- Principal axis: It is the line passing through optical centre and is perpendicular to the line joining its edges.
- Principal focus: It is a point on the principal axis where all light rays which are parallel to principal axis either converge or appear to diverge from, after refraction.
17. Lens formula: The formula which gives the relationship between the distance of image (v), distance of object (u), and the focal length (f) of the lens, is known as lens formula. It may be written as:
18. Magnification: Magnification, m= h2/h1 i.e., Ratio of height of image to the height of object. It is also given by v/u i.e., Ratio of distance of image to the distance of object.
19. Power of a lens: A beam of light parallel to principal axis either gets converged or diverged after refraction by a lens. Some lenses converge the beam of light to a small extent and some lenses converge it to a large extent. This ability of lens to converge or diverge a beam of light is known as the power of lens.
(i) S.I. unit of power of lens is ‘dioptre’: One dioptre is the power of a lens whose focal length is l m.
(ii) Power of a combination of two or more lenses: If two or more lenses are placed together to form a combined lens then the power of this combined lens is equal to the sum of the powers of individual lenses.
- Class 10 Notes
- Class 10 Science Notes
- NCERT Solutions for class 10th Science Chapter 10 Light-Reflection and Refraction