Consider a device consisting of a thin converging lens (11) and a thin diverging lens (12). The first lens has a focal length (11) of 3.3 cm and the second lens has a focal length of 12--1.2 cm. The distance between the two lenses is 16.0 cm. Find the angular magnification G when the object distance p1 from the first lens is 8.4 cm.
Consider a device consisting of a thin converging lens (11) and a thin diverging lens (12). The first lens has a focal length (11) of 3.3 cm and the second lens has a focal length of 12--1.2 cm. The distance between the two lenses is 16.0 cm. Find the angular magnification G when the object distance p1 from the first lens is 8.4 cm.
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![Consider a device consisting of a thin converging lens (11) and a thin diverging lens (12). The first lens
has a focal length (11) of 3.3 cm and the second lens has a focal length of 12--1.2 cm. The distance
between the two lenses is 16.0 cm. Find the angular magnification G when the object distance p1
from the first lens is 8.4 cm.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fa659daba-087b-446e-9e48-85d198edb4d7%2Fa67bbd4f-9a67-4c91-b00c-ef34756c2b76%2Fa0x97t_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Consider a device consisting of a thin converging lens (11) and a thin diverging lens (12). The first lens
has a focal length (11) of 3.3 cm and the second lens has a focal length of 12--1.2 cm. The distance
between the two lenses is 16.0 cm. Find the angular magnification G when the object distance p1
from the first lens is 8.4 cm.
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