Practice Q1 A compound microscope has a 7.00 mm focal length biconvex objective lens, L1, and a 55.0 mm focal length eyepiece lens, L2. The objective and eyepiece lens are separated by 24.0 cm. An object that is placed 7.40 mm in font of the objective lens. a) Calculate the location of the first and final image. b) Calculate the transverse magnification factor of the first and final image. c) Draw a light ray diagram of the system. Showing the object, the lens, the focal points, the image, and the light rays used to determine the image. d) Is the image real or virtual? Erect or inverted? Magnified or minified? Express your answer with 3 significant figures.

College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Practice Q1 A compound microscope has a 7.00 mm focal length biconvex objective lens, L1, and a 55.0
mm focal length eyepiece lens, L2. The objective and eyepiece lens are separated by 24.0 cm. An object that
is placed 7.40 mm in font of the objective lens.
a)
Calculate the location of the first and final image.
b) Calculate the transverse magnification factor of the first and final image.
c) Draw a light ray diagram of the system. Showing the object, the lens, the focal points, the image, and the
light rays used to determine the image.
d) Is the image real or virtual? Erect or inverted? Magnified or minified?
Express your answer with 3 significant figures.
Transcribed Image Text:Practice Q1 A compound microscope has a 7.00 mm focal length biconvex objective lens, L1, and a 55.0 mm focal length eyepiece lens, L2. The objective and eyepiece lens are separated by 24.0 cm. An object that is placed 7.40 mm in font of the objective lens. a) Calculate the location of the first and final image. b) Calculate the transverse magnification factor of the first and final image. c) Draw a light ray diagram of the system. Showing the object, the lens, the focal points, the image, and the light rays used to determine the image. d) Is the image real or virtual? Erect or inverted? Magnified or minified? Express your answer with 3 significant figures.
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