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Theory & Procedure, Convex Mirror (Focal Length) | Physics Class 12 - NEET PDF Download

Our Objective:

To find the focal length of a convex mirror using a convex lens.

The Theory:

Convex mirror

A convex mirror is a curved mirror in which the reflecting surface bulges towards the light source. Convex mirrors reflect light outwards; therefore they are not used to focus light. A convex mirror is also known as fish eye mirror or diverging mirror.
The image formed by a convex lens is virtual and erect, since the focal point (F) and the centre of curvature (2F) are both imaginary points "inside" the mirror that cannot be reached. As a result, images formed by these mirrors cannot be projected on a screen, since the image is inside the mirror. Therefore, its focal length cannot be determined directly. The image is smaller than the object, but gets larger as the object approaches the mirror. The ray diagram of a convex mirror is shown below.

Theory & Procedure, Convex Mirror (Focal Length) | Physics Class 12 - NEETThe focal length of a convex mirror can be determined by introducing a convex lens between the object and the convex mirror. An image can be obtained with the help of a convex lens side by side with the object when the convex mirror reflects the rays along the same path, i.e., when the rays fall normally on the mirror. Then, the radius of curvature, R, of the mirror is the distance between the screen and the mirror.

Theory & Procedure, Convex Mirror (Focal Length) | Physics Class 12 - NEET

The focal length f of the convex mirror is calculated using the formula,

Theory & Procedure, Convex Mirror (Focal Length) | Physics Class 12 - NEET

Learning Outcomes:

Students understand the following terms:

  • Convex mirror
  • Focal point
  • Radius of curvature

Students are better able to do the experiment in the real laboratory once they understand the procedure.

Materials Required

  • Concave mirror
  • Stand
  • Screen
  • Illuminated wire gauze.
  • Metre scale

Real lab Procedure

By distant object method :

  • Fix the given concave mirror on the stand and place it on a table, facing towards a distant object.
  • Arrange the screen on the table so that the image of the distant object is obtained on it.
  • Measure the distance between mirror and screen using a metre scale. It can be taken as the focal length (f) of the mirror.

By u-v method : 

  • Using the focal length obtained by distant object method set the values of u (distance between mirror and object) ranging from 1.5f to 2.5f. Divide the range into a number of equal steps.
  • Place the mirror in front of an illuminated wire gauze. It acts as the object.
  • Now, fix the mirror at the distance u (which is obtained as 1.5f) from the wire gauze.
  • Place the screen on the table facing the mirror in such a way that the reflected image lies on the screen.
  • We can adjust the position of the screen to get the clear image of the wire gauze.
  • Keeping the distance between object and mirror fixed, adjust the position of screen in order to get the clear image of the object.
  • Measure the distance between mirror and wire gauze, as well as mirror and screen. Take these values as u and v respectively.
  • Record the values of u and v in a tabular column.
  • Calculate the focal length of the given concave mirror by using the relation, f = uv/(u+v).
  • Repeat the experiment for different values of u (up to 2.5f) and in each time, measure v and record it in the tabular column.
  • Calculate the focal length (f) of the concave mirror each time.
  • Calculate the mean of all focal lengths to get the correct focal length of the given concave mirror.
  • The focal length of the mirror can also be measured graphically by plotting graphs between u & v, and 1/u & 1/v.
  • We can repeat the experiment with concave mirrors of different focal lengths.

Simulator Procedure (as performed through the Online Labs)

  • Select the focal length using the slider.
  • Click on the ‘Light On/Off’ button to turn On/Off the wire gauze.
  • Select the distance between the mirror and the object (u) using the slider.
  • Change the distance between the mirror and the screen (v) suing the slider to get a clear image of the wire gauze on the screen.
  • You can calculate the focal length of the mirror using the equation,
    Theory & Procedure, Convex Mirror (Focal Length) | Physics Class 12 - NEET
  • You can verify your result by clicking on the ‘Show result’ button.
  • To redo the experiment, click the ‘Reset’ button.
The document Theory & Procedure, Convex Mirror (Focal Length) | Physics Class 12 - NEET is a part of the NEET Course Physics Class 12.
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FAQs on Theory & Procedure, Convex Mirror (Focal Length) - Physics Class 12 - NEET

1. What is the focal length of a convex mirror?
Ans. The focal length of a convex mirror is the distance between the mirror and its focal point. It is a positive value for convex mirrors and is equal to half the radius of curvature of the mirror.
2. How can we determine the focal length of a convex mirror?
Ans. The focal length of a convex mirror can be determined by measuring the radius of curvature of the mirror. The focal length is then calculated by dividing the radius of curvature by 2.
3. What is the significance of the focal length in a convex mirror?
Ans. The focal length of a convex mirror determines the amount of divergence of light rays after reflection. A shorter focal length means a greater divergence, resulting in a wider field of view but with diminished magnification.
4. Can the focal length of a convex mirror be negative?
Ans. No, the focal length of a convex mirror cannot be negative. Convex mirrors always have positive focal lengths due to their shape and the way they reflect light.
5. How does the focal length of a convex mirror affect the size of the reflected image?
Ans. The focal length of a convex mirror does not affect the size of the reflected image. Convex mirrors always produce virtual and diminished images regardless of the focal length. The size of the image is determined by the distance between the object and the mirror, not the focal length.
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