(C) In the displacement method for a convex lens,for the two positions of the lens,the magnification $m_1$ and $m_2$ are given by:$m_1 = \frac{I_1}{O}

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(C) In the displacement method for a convex lens,for the two positions of the lens,the magnification $m_1$ and $m_2$ are given by:$m_1 = \frac{I_1}{O} = \frac{v}{u}$$m_2 = \frac{I_2}{O} = \frac{u}{v}$Multiplying these two equations:$\frac{I_1}{O} \times \frac{I_2}{O} = \frac{v}{u} \times \frac{u}{v} = 1$$\frac{I_1 I_2}{O^2} = 1$$O^2 = I_1 I_2$$O = \sqrt{I_1 I_2}$Therefore,the size of the object is $\sqrt{I_1 I_2}$.

Class 12 Physics Ray Optics and Optical Instruments Refraction by Lenses

Easy

If ${I_1}$ and ${I_2}$ are the sizes of the images for the two positions of the lens in the displacement method,then the size of the object is given by:

A
${I_1}/{I_2}$
B
${I_1} \times {I_2}$
C
$\sqrt {{I_1} \times {I_2}} $
D
$\sqrt {{I_1}/{I_2}} $

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Ray Optics and Optical Instruments

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Refraction by Lenses

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MediumAIPMT 1996

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If ${I_1}$ and ${I_2}$ are the sizes of the images for the two positions of the lens in the displacement method,then the size of the object is given by:

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