A thin biconvex lens (lens 1) having a focal length of 50 cm is located 100 cm in front (i.e., to the left) of a thin biconvex lens (lens 2) of focal length 50 cm. A small object is situated 150 cm to the left of the first lens (lens 1). Find the location of image formed by the first lens (lens 1). a. b. Calculate the magnification of the first lens. Find the location of the final image. C. d. Calculate the total magnification for the lenses combination. Describe the properties of the final image.
A thin biconvex lens (lens 1) having a focal length of 50 cm is located 100 cm in front (i.e., to the left) of a thin biconvex lens (lens 2) of focal length 50 cm. A small object is situated 150 cm to the left of the first lens (lens 1). Find the location of image formed by the first lens (lens 1). a. b. Calculate the magnification of the first lens. Find the location of the final image. C. d. Calculate the total magnification for the lenses combination. Describe the properties of the final image.
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Transcribed Image Text:A thin biconvex lens (lens 1) having a focal length of 50 cm is located 100 cm in front
(i.e., to the left) of a thin biconvex lens (lens 2) of focal length 50 cm. A small object is situated
150 cm to the left of the first lens (lens 1).
Find the location of image formed by the first lens (lens 1).
a.
b.
Calculate the magnification of the first lens.
Find the location of the final image.
C.
d.
Calculate the total magnification for the lenses combination.
Describe the properties of the final image.
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