NVAMediumJEE 2023Reflection & Spherical Mirrors

JEE Physics 2023 Question with Solution

Two vertical parallel mirrors A and B are separated by 10cm10 \, \text{cm}. A point object O is placed at a distance of 2cm2 \, \text{cm} from mirror A. The distance of the second nearest image behind mirror A from the mirror A is:

Two vertical parallel mirrors labeled A and B are separated by 10 cm, with point object O placed 2 cm to the right of mirror A between them.

Answer

Correct answer:18

Step-by-step solution

Standard Method

Given: Two vertical parallel mirrors A and B are separated by 10cm10 \, \text{cm}. The object O is at a distance of 2cm2 \, \text{cm} from mirror A.

Find: The distance of the second nearest image behind mirror A from mirror A.

For multiple reflections between two plane mirrors, images are formed alternately behind the two mirrors.

The first image behind mirror A is formed at the same distance as the object is in front of it:

2cm2 \, \text{cm}

The object is 102=8cm10 - 2 = 8 \, \text{cm} in front of mirror B, so the first image behind mirror B is at

8cm8 \, \text{cm}

behind B.

This image behind B acts as an object for mirror A. Its distance from mirror A is

10+8=18cm10 + 8 = 18 \, \text{cm}

So, the second nearest image behind mirror A is at 18cm18 \, \text{cm} from mirror A.

Therefore, the required answer is 1818.

Image Sequence Tracking

Given: Mirror separation is 10cm10 \, \text{cm} and the object is 2cm2 \, \text{cm} from mirror A.

Find: The second nearest image behind mirror A.

Track the images in order near mirror A:

  1. First image behind A is at 2cm2 \, \text{cm}.
  2. First image behind B is formed from the same object. Since the object is 8cm8 \, \text{cm} from B, that image is 8cm8 \, \text{cm} behind B.
  3. Measured from mirror A, that position is
10+8=18cm10 + 8 = 18 \, \text{cm}

This becomes the next image behind A in the sequence of multiple reflections.

Hence, the nearest image behind A is at 2cm2 \, \text{cm} and the second nearest image behind A is at 18cm18 \, \text{cm}.

Therefore, the answer is 1818.

Common mistakes

  • Treating the distance of the object from mirror B as 12cm12 \, \text{cm} by adding 10+210 + 2 is incorrect. The object lies between the mirrors, so its distance from B is 102=8cm10 - 2 = 8 \, \text{cm}. Always measure distance from the mirror to the actual object position.

  • Confusing the first image behind mirror A with the second nearest image behind A leads to the answer 2cm2 \, \text{cm}. The question asks specifically for the second nearest image, so the multiple-reflection sequence must be continued.

  • Using spherical mirror formulas is wrong because the setup consists of parallel plane mirrors. Here, image distance equals object distance for each reflection, and positions must be tracked geometrically.

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