A convex mirror (of focal length magnitude 7.0 cm) is placed in combination with a diverging lens (of focal length magnitude 12.0 cm). Assume the mirror is placed 16.0 cm to the left of the lens, and a small object is placed 9.0 cm to the right of the lens. If the origin of the coordinate system is placed at the location of the mirror and we set positive rightward, what is the position of the final image? (Assume light goes through the lens twice). Express your answer in cm, to at least one digit after the decimal point.

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A convex mirror (of focal length
magnitude 7.0 cm) is placed in
combination with a diverging lens (of
focal length magnitude 12.0 cm).
Assume the mirror is placed 16.0 cm to
the left of the lens, and a small object is
placed 9.0 cm to the right of the lens.
If the origin of the coordinate system is
placed at the location of the mirror and
we set positive rightward, what is the
position of the final image? (Assume
light goes through the lens twice).
Express your answer in cm, to at least
one digit after the decimal point.
Transcribed Image Text:A convex mirror (of focal length magnitude 7.0 cm) is placed in combination with a diverging lens (of focal length magnitude 12.0 cm). Assume the mirror is placed 16.0 cm to the left of the lens, and a small object is placed 9.0 cm to the right of the lens. If the origin of the coordinate system is placed at the location of the mirror and we set positive rightward, what is the position of the final image? (Assume light goes through the lens twice). Express your answer in cm, to at least one digit after the decimal point.
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