The given lens is broken into four parts and | vedclass

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(B) When a lens is cut into two equal parts along the principal axis (transverse direction),the focal length of each part becomes $2f$.In this problem

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$f/2$

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(B) When a lens is cut into two equal parts along the principal axis (transverse direction),the focal length of each part becomes $2f$.In this problem,the lens is cut into four parts. Each part acts as a lens with a focal length of $2f$.When these four parts are placed in contact,the equivalent focal length $f_{	ext{eff}}$ is given by the formula for lenses in contact:$\frac{1}{f_{	ext{eff}}} = \frac{1}{f_1} + \frac{1}{f_2} + \frac{1}{f_3} + \frac{1}{f_4}$Substituting the values $f_1 = f_2 = f_3 = f_4 = 2f$:$\frac{1}{f_{	ext{eff}}} = \frac{1}{2f} + \frac{1}{2f} + \frac{1}{2f} + \frac{1}{2f}$$\frac{1}{f_{	ext{eff}}} = \frac{4}{2f} = \frac{2}{f}$Therefore,$f_{	ext{eff}} = \frac{f}{2}$.

The given lens is broken into four parts and rearranged as shown. If the initial focal length is $f$,then after rearrangement,the equivalent focal length is

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