Question 1(vii)A convex lens has focal length 12 cm with an object at a distance of 20 cm in front of the lens. He obtains a blurred image on the screen placed at a distance of 23 cm in front of the lens. In order to obtain the clear image, he has to move the screentowards the lens.away from the lens.to a position very far away from the lens.either towards or away from the lens.

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Accepted Answer

away from the lens.Reason —Given,Focal length (f) = +12 cmObject distance (u) = -20 cmBlurred image distance (v') = +23 cmLet, clear image distance be v.From lens formula,1f=1v–1u1v=1f+1u1v=112+1(−20)1v=112−1201v=5−360=260v=602=+30 cm\dfrac{1}{\text f} = \dfrac{1}{\text v} – \dfrac{1}{\text u} \[1 em] \dfrac{1}{\text v} = \dfrac{1}{\text f} + \dfrac{1}{\text u} \[1 em] \dfrac{1}{\text v}=\dfrac{1}{12} + \dfrac{1}{(-20)}\[1 em] \dfrac{1}{\text v}=\dfrac{1}{12} - \dfrac{1}{20}\[1 em] \dfrac{1}{\text v}=\dfrac{5-3}{60 }= \dfrac{2}{60}\[1 em] \text v = \dfrac{60}{2} = +30 \text { cm}f1​=v1​–u1​v1​=f1​+u1​v1​=121​+(−20)1​v1​=121​−201​v1​=605−3​=602​v=260​=+30 cmNow,Clear image distance (v) - Blurred image distance (v') = 30 - 23 = 7 cmSo, in order to obtain the clear image, he has to move the screen 7 cm away from the lens.

Solved 2025 Specimen Paper ICSE Class 10 Physics — Question 7

Question 1(vii)