CBSE Solutions for Class 10 English

જવાબ : negative

જવાબ : Magnification

જવાબ : concave

જવાબ : real

જવાબ : reflection

જવાબ : reflection

જવાબ : plane or convex mirror

જવાબ : concave

જવાબ : virtual

જવાબ : concave

જવાબ : dioptre

જવાબ : reciprocal

જવાબ : 3 x 108 m/s

જવાબ : dispersion

જવાબ : Power of lens (P) = 1/f P = 1.5D f = 1/1.5 = 10/15 = 0.66 m A convex lens has a positive focal length. Therefore, it is a convex lens or a converging lens.

જવાબ : Power of lens (P) = 1/f P = -2D f = -1/2 = -0.5 m A concave lens has a negative focal length. Therefore, it is a concave lens

જવાબ : The positive sign means an image formed by a plane mirror is virtual and erect. Since the magnification is 1 it means that the size of the image is equal to the size of the object.

જવાબ : Yes, it will produce a complete image of the object, as shown in the figure. This can be verified experimentally by observing the image of a distant object like a tree on a screen when the lower half of the lens is covered with a black paper. However, the intensity or brightness of the image will reduce.

જવાબ : (a) Concave Mirror: Because concave mirrors can produce a powerful parallel beam of light when the light source is placed at their principal focus. (b) Convex Mirror: Because of its largest field of view. (c) Concave Mirror: Because it concentrates the parallel rays of the sun at a principal focus.

જવાબ : Range of the distance of the object = 0 to 15 cm from the pole of the mirror. Nature of the image = virtual, erect, and larger than the object.

જવાબ : Focal length of concave lens (f) = 2 m Power of lens (P) = 1/f = 1/ (-2) = -0.5D

જવાબ : Dioptre is the SI unit of power of lens is denoted by the letter D. 1 dioptre can be defined as the power of a lens of focal length 1 metre.

જવાબ : Diamond has a refractive index of 2.42 which means that the speed of light in diamond will reduce by a factor of 2.42 as compared to its speed in the air. In other words, the speed of light in diamond is 1/2.42 times the speed of light in vacuum.

જવાબ : Refractive index of a medium (nm) = Speed of light in vacuum/Speed of light in the medium Speed of light in vacuum (c) = 3 × 108 m/s Refractive index of glass (ng) = 1.50 Speed of light in the glass (v) = Speed of light in vacuum/ Refractive index of glass = c/ng =3 × 108/1.50 = 2x 108 ms-1.

જવાબ : The light ray bends towards the normal. When a light ray enters from an optically rarer medium (which has low refractive index) to an optically denser medium (which has a high refractive index), its speed slows down and bends towards the normal. As water is optically denser than air, a ray of light entering from air into water will bend towards the normal.

જવાબ : Radius of curvature (R) = 20 cm Radius of curvature of the spherical mirror = 2 × Focal length (f) R = 2f f= R/2 = 20 / 2 = 10 Therefore, the focal length of the spherical mirror is 10 cm.

જવાબ : Convex mirror is preferred as a rear-view mirror in cars and vehicles as it gives a wider field of view, which helps the driver to see most of the traffic behind him. Convex mirrors always form an erect, virtual, and diminished image of the objects placed in front of it.

જવાબ : Radius of curvature (R) = 32 cm Radius of curvature = 2 × Focal length (f) R= 2f f = R/2 = 32/2 = 16 Therefore, the focal length of the given convex mirror is 16 cm.

જવાબ : Magnification produced by a spherical mirror:

જવાબ : Light rays that are parallel to the principal axis of a concave mirror converge at a specific point on its principal axis after reflecting from the mirror. This point is called the principal focus of the concave mirror.

જવાબ : The distance between the pole and principal focus of a spherical mirror is called focal length of the spherical mirror.

જવાબ : A point on the principal axis, where the rays of light parallel to the principal axis meet after reflection from the concave mirror is called the principal focus of the concave mirror.

જવાબ : A point on the principal axis, where rays of light parallel to the principal axis appear to meet after reflecting from the convex mirror.

જવાબ : The process of returning or bouncing back the light to the same medium after striking the surface is called reflection of light.

જવાબ : A surface which reflects the light is called reflector.

જવાબ :

1. Angle of incidence is equal to the angle of reflection. That is , ∠i = ∠r .
2. Incident ray, reflected ray and normal to the reflecting surface at the point of incidence lie in the same plane.

જવાબ : For normal incidence, ∠i = 0. Therefore, according to law of reflection ∠r = ∠i = 0.

જવાબ : When rays of light from an object actually meet at a point after refraction, then image formed is real.

જવાબ : Image is virtual, erect and of the same size as that of the object.

જવાબ : When rays of light from an object do not meet at a point but appears to meet at a point, then image formed is virtual.

જવાબ : The centre of a hollow sphere of which the spherical mirror forms a part is called the centre of curvature of the spherical mirror.

જવાબ : The radius of a hollow sphere of which the spherical mirror forms a part is called radius of curvature of the spherical mirror.

જવાબ : The part of spherical mirror exposed to the incident light is called the aperture of the spherical mirror.

જવાબ : The mid point of the spherical mirror is called the pole of spherical mirror.

જવાબ : The line joining the centre of curvature and pole of the spherical mirror and extended on either side is called the principal axis of the spherical mirror.

જવાબ : The mirror that can give an erect and enlarged image of an object is Concave Mirror.

જવાબ : The position of the image should be at 2F since the image is the real and same size.

જવાબ : Height of the Object, h₀ = 5 cm

જવાબ : Focal length of convex mirror (f) = +15 cm

જવાબ : Magnification produced by a mirror is given by the relation

જવાબ : Range of object distance = 0 cm to15 cm

જવાબ : Focal length of concave lens, f = 2 m

જવાબ : When an object is placed at the centre of curvature, 2F₁, of a convex lens, its image is formed at the centre of curvature, 2F₂, on the other side of the lens. The image formed is inverted and of the same size as the object, as shown in the given figure.

જવાબ : Power of lens is defined as the reciprocal of its focal length. If P is the power of a lens of focal length F in metres, then

જવાબ : Refractive index of a medium n_m is related to the speed of light in that medium v by the relation:

જવાબ : Refractive index of a medium n_m is given by,

જવાબ : Magnification produced by a spherical mirror is given by the relation,

જવાબ : Radius of curvature, R = 32 cm

જવાબ : Radius of curvature, R = 20 cm

જવાબ : Magnification produced by a spherical mirror:

જવાબ : Given: u = -10 cm, f = 15 cm and v = ?

Hence, the image is formed behind the mirror. It is erect, virtual and smaller than the object.

જવાબ : Lowest optical density = Air

જવાબ : Object distance (u) = – 20 cm

જવાબ : Object distance (u) = – 27 cm

જવાબ :

1. Concave mirror forms virtual image if object is placed between the focus and pole of the mirror. Therefore, for the position of object at 10 cm mirror forms the required image.
2. A real and diminished image is formed when object lies beyond C i.e. beyond 2F. So, for the position of object at 40 cm, mirror forms the required image.
3. An enlarged real image is formed when object lies between F and 2 F. So, for the position of object at 20 cm, mirror forms the required image.
4. An image of same size of the object is formed when object lies at C or 2F. So, for the position of object at 30 cm, mirror forms the required image.

જવાબ :

1. Reflector: Concave mirrors are used in motor head lights, search lights and torches etc. to produce an intense parallel beam of light. A bulb is placed at the focus of concave mirror or concave reflecting surface. The beam of light from the bulb after reflecting from the concave mirror goes as a parallel beam (figure 24).
   
   This parallel beam of – light illuminates the road ahead of the vehicle.
2. Shaving and make up mirror: When an object is placed close to a concave mirror (i.e between the pole and focus of the concave mirror), an erect and enlarged (large in
   size) image of the object is formed. Because of this fact, concave mirror is used by men to see their enlarged faces while shaving. Similarly, a lady can see her face better with the help of a concave mirror while doing make up.
3. In solar cookers: When a parallel beam of sun light falls on a concave mirror, this beam is brought to the focus of the concave mirror. As a result of this, the temperature of an object (say a container containing un-cooked food) placed at this focus increases considerably. Hence the food in the container is cooked (figure 25).
   

જવાબ :

1. Rear view or driver’s mirror. Convex mirror is used as a rear view mirror in vehicles because this mirror forms an erect and diminished image of an object behind the vehicle. Since the image of the object formed is small in size, so the field of view is increased. It means, the driver of a vehicle can see the traffic over large area behind his vehicle. This mirror is also known as driver’s mirror.
2. In street lights. Convex mirror is used in street lights to diverge light over a large area (figure 28).

જવાબ : We can identify the three types of mirrors by looking at them. If the size of the image of an object is of the
same size as that of the object, then mirror is plane mirror. If the size of the image of an object increases as the object is brought closer to the mirror and the size of image is highly magnified when the object is very close to the mirror, then the mirror is concave mirror. If the size of the image is smaller and full length of the image of an object is seen, then the mirror is convex mirror.

જવાબ :

1. When object is placed between the focus (F) and pole (P) of a concave mirror, magnified and erect image of the object is formed on the back of the mirror.
2. When object is placed between the centre of curvature and the principal focus of a concave mirror, magnified and inverted image is formed in front of the mirror.

જવાબ : Refraction of light follows the following two laws :

1. The incident ray, the refracted ray and the normal to the surface separating the two media all lie in the same plane

જવાબ :

જવાબ : Given: v = 50 cm, u = ?, P = ?
Since the image is equal to the size of the object, so the object is placed at a distance twice the focal length of the lens, i.e.
-u = v = 2f= 50 cm
∴ u = -50 cm and f= 25 cm
Hence, the needle is placed at a distance of 50 cm in front of the lens.
Nowpower, 

જવાબ : Yes, it will produce a complete image of the object. This can be verified experimentally as follows:
Procedure:

1. Take a metre scale and place it horizontally against a white or light coloured wall with 0 cm end touching the wall.
2. Take a convex lens and focus the light from a distant object, say a tree, by moving the lens to and fro along the metre scale.
3. A sharp image of the tree is formed on the wall at a distance equal to the focal length of the lens.
4. Cover lower or upper half of the lens with black paper.
5. Again focus the light from the same tree on the wall.A less bright image of the tree is formed on the wall from the same point on the metre scale.Observation: It is observed that when half of the lens is covered, its focal length remains the same. Only the intensity of light entering the lens decreases due to which the brightness of the image also decreases.
   Diagrammatically, it can be represented as

જવાબ : The ray diagram is shown below:

જવાબ :

a. Diverging lens
b. Convex
c. Concave
d. Focus
e. Real image

જવાબ :

a. Refraction
b. One
c. Converging lens

જવાબ :