JEE Advance - Physics (2014 - Paper 1 Offline - No. 14)

JEE Advanced 2014 Paper 1 Offline Physics - Geometrical Optics Question 33 English

A transparent thin film of uniform thickness and refractive index n₁ = 1.4 is coated on the convex spherical surface of radius R at one end of a long solid glass cylinder of refractive index n₂ = 1.5, as shown in the figure. Rays of light parallel to the axis of the cylinder traversing through the film from air to glass get focused at distance f₁ from the film, while rays of light traversing from glass to air get focused at distance f₂ from the film. Then

$$\left| {{f_1}} \right| = 3R$$

$$\left| {{f_1}} \right| = 2.8R$$

$$\left| {{f_2}} \right| = 2R$$

$$\left| {{f_2}} \right| = 1.4R$$

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As the film has R₁ = R₂ = R (say), its focal length

$${1 \over f} = ({n_1} - 1)\left( {{1 \over R} - {1 \over R}} \right)$$

JEE Advanced 2014 Paper 1 Offline Physics - Geometrical Optics Question 33 English Explanation

JEE Advanced 2014 Paper 1 Offline Physics - Geometrical Optics Question 33 English Explanation

$${1 \over f} = 0$$ or $$f = \infty $$. It will not cause refraction.

Refraction will take place at air and glass cylinder. Given u = $$\infty$$

$$ - {{{n_1}} \over u} + {{{n_2}} \over v} = {{{n_2} - {n_1}} \over R}$$

$$ - {{{n_1}} \over \infty } + {1.5 \over {{f_1}}} = {{1.5 - 1} \over R}$$ or $${f_1} = 3R$$

For glass-air refraction, we have

$$ - {{{n_2}} \over u} + {{{n_1}} \over v} = {{{n_1} - {n_2}} \over R}$$

$$ - {{{n_2}} \over \infty } + {1 \over {{b_2}}} = {{1 - 1.5} \over R}$$

or $${f_2} = - 2R$$ or $$\left| {{f_2}} \right| = 2R$$.

JEE Advance - Physics (2014 - Paper 1 Offline - No. 14)

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