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Solved: Zoom Lens. Consider the simple model of the zoom
Chapter 34, Problem 48E(choose chapter or problem)
Zoom Lens. Consider the simple model of the zoom lens shown in Fig. 34.43a. The converging lens has focal length \(f_{1}=12 \mathrm{~cm}\), and the diverging lens has focal length \(f_{2}=-12 \mathrm{~cm}\). The lenses are separated by as shown in Fig. 34.43a. (a) For a distant object, where is the image of the converging lens? (b) The image of the converging lens serves as the object for the diverging lens. What is the object distance for the diverging lens? (c) Where is the final image? Compare your answer to Fig. 34.43a. (d) Repeat parts (a), (b), and (c) for the situation shown in Fig. 34.43b, in which the lenses are separated by .
Equation transcription:
Text transcription:
f_{1}=12{~cm}
f_{2}=-12{~cm}
Questions & Answers
QUESTION:
Zoom Lens. Consider the simple model of the zoom lens shown in Fig. 34.43a. The converging lens has focal length \(f_{1}=12 \mathrm{~cm}\), and the diverging lens has focal length \(f_{2}=-12 \mathrm{~cm}\). The lenses are separated by as shown in Fig. 34.43a. (a) For a distant object, where is the image of the converging lens? (b) The image of the converging lens serves as the object for the diverging lens. What is the object distance for the diverging lens? (c) Where is the final image? Compare your answer to Fig. 34.43a. (d) Repeat parts (a), (b), and (c) for the situation shown in Fig. 34.43b, in which the lenses are separated by .
Equation transcription:
Text transcription:
f_{1}=12{~cm}
f_{2}=-12{~cm}
ANSWER: