Question

a converging lens produces a real magnified and well defined image of ​

Answer 1

Answer:

$(A_1A_2)^{1/4}$

Explanation:

The complete question is :

A converging lens produces a real, magnified and well defined image of a small illuminated square on a screen. The area of the image is A1. When the lens is moved towards the screen without disturbing the object and the screen, the area of the well defined image obtained on the screen is A2. What is the side of the square object?

Solution:

Let the side of the square is a

The positions are conjugate positions. If in the first case, the length of the image is a₁ then

$\frac{v}{u}=\frac{a_1}{a}$

When the lens is moved towards the screen, v and u will be interchanged. If the image size is a₂ then

$\frac{u}{v}=\frac{a_2}{a}$

From the above two equations

$\frac{a_1}{a}\times\frac{a_2}{a} =1$

$\implies a_1a_2=a^2$

$\implies a=\sqrt{a_1a_2}$

But

$a_1=\sqrt{A_1}$

And $a_2=\sqrt{A_2}$

Therefore,

$a=\sqrt{\sqrt{A_1}\sqrt{A_2}$

$\implies a=\sqrt{(A_1A_2)^{1/2}}$

$\implies a=((A_1A_2)^{1/2})^{1/2}$

$\implies a=(A_1A_2)^{1/4}$

Thus, correct option is option (d)

Hope this helps.