D. 2.002. In a Michaelson interferometer, a 4-sided mirror rotates in place. A laser beamstrikes the rotating mirror and travels 100 m to a stationary mirror, which reflects thebeam back. What is the smallest frequency required to rotate the mirror so that thereflected beam follows the same path as if the mirror was not rotating?A. 1.50 x 106 HzB. 3.00 x 106 HzC 3.75 x 105 HzD. 7.50 x 105 HzRLloomS

Answered: Image /qna-images/answer/fcbfeaf0-a273-488a-95b8-14df345beff3.jpg

In a Michaelson interferometer, a 4-sided mirror rotates in place. A laser beam strikes the rotating mirror and travels 100 m to a stationary mirror, which reflects beam back. What is the smallest frequency required to rotate the mirror so that th reflected beam follows the same path as if the mirror was not rotating? A. 1.50 x 106 Hz B. 3.00 x 106 Hz C 3.75 x 105 Hz D. 7.50 x 105 Hz L

In a Michaelson interferometer, a 4-sided mirror rotates in place. A laser beam strikes the rotating mirror and travels 100 m to a stationary mirror, which reflects beam back. What is the smallest frequency required to rotate the mirror so that th reflected beam follows the same path as if the mirror was not rotating? A. 1.50 x 106 Hz B. 3.00 x 106 Hz C 3.75 x 105 Hz D. 7.50 x 105 Hz L

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Question

D. 2.00
2. In a Michaelson interferometer, a 4-sided mirror rotates in place. A laser beam
strikes the rotating mirror and travels 100 m to a stationary mirror, which reflects the
beam back. What is the smallest frequency required to rotate the mirror so that the
reflected beam follows the same path as if the mirror was not rotating?
A. 1.50 x 106 Hz
B. 3.00 x 106 Hz
C 3.75 x 105 Hz
D. 7.50 x 105 Hz
R
L
loom
S

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