A convex lens of refractive index and focal length in air is immersed in water. The change in focal length of the lens will be: (Given refractive index of water )
JEE Physics 2023 Question with Solution
Answer
Correct answer:54
Step-by-step solution
Standard Method
Given: refractive index of lens , refractive index of water , and focal length in air .
Find: the change in focal length when the lens is immersed in water.
The focal length of a lens in water is given by:
For air:
The ratio of focal lengths in water and air is:
Substitute the values:
Thus:
The change in focal length is:
Therefore, the change in focal length is .
Using effective refractive index
Given: , , and .
Find: change in focal length in water.
Use the effective refractive index:
So,
Hence,
In air,
Since focal length is inversely proportional to the refractive factor,
Therefore,
Now,
So the numerical answer is .
Common mistakes
Using directly in water is incorrect because the lens maker effect depends on the refractive index relative to the surrounding medium. Use instead.
Concluding that the focal length decreases in water is wrong here because the refractive contrast decreases, so the lens becomes less powerful. Therefore, the focal length increases.
Stopping at is incomplete because the question asks for the change in focal length. Subtract the original focal length: .
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