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Magnification


Mirror Formula & Magnification | Science Class 10

Mirror Formula & Magnification | Science Class 10Power of a Mirror


The power of a mirror is defined as

Mirror Formula & Magnification | Science Class 10

Convex Mirrors


Give erect, virtual and diminished image.

In convex mirror, the field of view is increased as compared to plane mirror.

It is used as rear-view mirror in vehicles.

Concave Mirrors 


Give enlarged, erect and virtual image, so these are used by dentists for examining teeth. Due to their converging property concave mirrors are also used as reflectors in automobiles head lights and search lights.

A real image can be taken on a screen, but a virtual image cannot be taken on a screen.

As focal length of a spherical mirror Mirror Formula & Magnification | Science Class 10 depends only on the radius of mirror and is independent of wavelength of light and refractive index of medium so the focal length of a spherical mirror in air or water and for red or blue light is same.

Mirror Formula


The relation between the distance of the object from the pole of the spherical mirror (u), the distance of the image from the pole of the spherical mirror (v) and its focal length (f) is given by the mathematical formula :

It must be remembered that focal length (f) of a spherical mirror is half the radius of curvature (R).

Thus, (i) R = 2f, (ii) f =

Mirror Formula & Magnification | Science Class 10

Question for Mirror Formula & Magnification
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A spherical mirror has a focal length of 10 cm. What is the radius of curvature of the mirror?
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Important Points in using the Mirror Formula


 (i) Put the correct signs of known variables according to the sign convention.

(ii) Do not put the sign of an unknown variable. The sign will be automatically appeared during calculations.

(iii) If the calculated sign turns out to be positive, then the variable calculated is behind the mirror. However, if calculated sign turns out to be negative, then variable is to be in front of the mirror.

Linear Magnification Produced by Spherical Mirrors


The ratio between the height of the image produced by the spherical mirror to the height of the object is called the linear magnification.

Mirror Formula & Magnification | Science Class 10

where m = magnification

h = height of the image

ho = height of the object

Linear Magnification when the Image is Real


As we normally take the object above the principal axis, therefore, his always positive. The real image is always inverted and is formed below the principal axis.
Therefore, hi is always negative. Thus, Linear magnification for real images = Mirror Formula & Magnification | Science Class 10  is always negative.

Linear Magnification when the Image is Virtual


In case of virtual image. it is erect and formed above the principal axis. Thus, h0 and hare both positive.

The linear magnification produced by a spherical mirror is equal to the ratio of the distance of the image from the pole of the mirror (v) to the distance of the object from the pole of the mirror (u) with a minus sign.

Linear magnification, Mirror Formula & Magnification | Science Class 10

Thus Linear magnification,  Mirror Formula & Magnification | Science Class 10=   Mirror Formula & Magnification | Science Class 10

Important Points in using Magnification Formula


(i) Put the correct signs of known variables according to the sign convention.

(ii) If 'm' is known, take the sign for virtual image positive and for real image negative.

(iii) Do not put the sign of unknown variables. The sign will automatically come up during calculations.

The document Mirror Formula & Magnification | Science Class 10 is a part of the Class 10 Course Science Class 10.
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FAQs on Mirror Formula & Magnification - Science Class 10

1. What is magnification?
Ans. Magnification is the ratio of the size of an image to the size of the object. It is a measure of how much larger or smaller an image appears in comparison to the object.
2. What is the mirror formula?
Ans. The mirror formula relates the distance of the object (u), the distance of the image (v), and the focal length of the mirror (f). It is given as 1/f = 1/v + 1/u.
3. What is the linear magnification produced by spherical mirrors?
Ans. The linear magnification produced by spherical mirrors is the ratio of the size of the image to the size of the object. It is given as m = -v/u, where m is the magnification, u is the distance of the object, and v is the distance of the image.
4. What is the difference between convex and concave mirrors?
Ans. Convex mirrors are curved outward and have a wider field of view, making them useful in places like parking lots. Concave mirrors are curved inward and are used in things like makeup mirrors to provide a magnified view.
5. How is the power of a mirror calculated?
Ans. The power of a mirror is the reciprocal of its focal length. It is given as P = 1/f, where P is the power of the mirror and f is the focal length. The unit of power is dioptre (D).
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Document Description: Mirror Formula & Magnification for Class 10 2024 is part of Science Class 10 preparation. The notes and questions for Mirror Formula & Magnification have been prepared according to the Class 10 exam syllabus. Information about Mirror Formula & Magnification covers topics like Magnification, Power of a Mirror, Convex Mirrors, Mirror Formula, Linear Magnification Produced by Spherical Mirrors, Linear Magnification when the Image is Real, Linear Magnification when the Image is Virtual, Important Points in using Magnification Formula and Mirror Formula & Magnification Example, for Class 10 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises and tests below for Mirror Formula & Magnification.
Introduction of Mirror Formula & Magnification in English is available as part of our Science Class 10 for Class 10 & Mirror Formula & Magnification in Hindi for Science Class 10 course. Download more important topics related with notes, lectures and mock test series for Class 10 Exam by signing up for free. Class 10: Mirror Formula & Magnification | Science Class 10
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