When an object is put in front of a thin lens, if the focal length o image will be formed by using the thin lens equation: 1.1.1 pqf lens is known, one can predict where the where is the object distance, g is the image distance, and is the focal length./is positive for a converging lens, and negative for a diverging lens. Refer to the figure below to answer the questions: A positive lens A negative lens tr 1. If an object is located very far from a converging lens, i.e. p-o, where would its image be formed? 2. If an object is located on the first focal point of a converging lens, i.e. p-f, where is its image formed? is the image on the same side or opposite side of the lens as the object? 3. If an object is located on the second focal point of a diverging lens, i.e.p-, where is its image formed? Is the image on the same side or opposite side of the lens as the object?

When an object is put in front of a thin lens, if the focal length o image will be formed by using the thin lens equation: 1.1.1 pqf lens is known, one can predict where the where is the object distance, g is the image distance, and is the focal length./is positive for a converging lens, and negative for a diverging lens. Refer to the figure below to answer the questions: A positive lens A negative lens tr 1. If an object is located very far from a converging lens, i.e. p-o, where would its image be formed? 2. If an object is located on the first focal point of a converging lens, i.e. p-f, where is its image formed? is the image on the same side or opposite side of the lens as the object? 3. If an object is located on the second focal point of a diverging lens, i.e.p-, where is its image formed? Is the image on the same side or opposite side of the lens as the object?

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter25: Optical Instruments

Section: Chapter Questions

Problem 37P

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