5. Image formation in mirrors and the mirror equation: An object is placed 2 cm in front of a concave mirror with a focal length of 4 cm. Describe and determine the distance of the image from the mirror. Show your solution graphically and mathematically using the mirror equation. (Use a bond paper for your answer). 6. Image formation in lenses and the lens equation: The distance of an object in front of a diverging lens is 8 cm. If the focus of the lens is 4 cm, what is the distance of the image from the lens? Describe the image. Show your solution graphically and mathematically using the lens equation. (Use the back page of your answer sheet in number 5).

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
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5. Image formation in mirrors and the mirror equation: An object is placed 2 cm in front of a concave mirror
with a focal length of 4 cm. Describe and determine the distance of the image from the mirror. Show your
solution graphically and mathematically using the mirror equation. (Use a bond paper for your answer).
6. Image formation in lenses and the lens equation: The distance of an object in front of a diverging lens is 8
cm. If the focus of the lens is 4 cm, what is the distance of the image from the lens? Describe the image.
Show your solution graphically and mathematically using the lens equation. (Use the back page of your
answer sheet in number 5).
Transcribed Image Text:5. Image formation in mirrors and the mirror equation: An object is placed 2 cm in front of a concave mirror with a focal length of 4 cm. Describe and determine the distance of the image from the mirror. Show your solution graphically and mathematically using the mirror equation. (Use a bond paper for your answer). 6. Image formation in lenses and the lens equation: The distance of an object in front of a diverging lens is 8 cm. If the focus of the lens is 4 cm, what is the distance of the image from the lens? Describe the image. Show your solution graphically and mathematically using the lens equation. (Use the back page of your answer sheet in number 5).
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