> Michelson interferometer generates a beat pattem for a monochromatic radiation source. The frequency of the resulting interferogram is 2.40 x 104 Hz. Determine the frequency of incident radiation that created that interferogram given the fact that the mirror was pulsing over a distance of 3 cm at a frequency of 1 Hz. The relevant equation is v2u or v = 2u v = frequency of the incident radiation f= frequency of the interferogram reaching the detector C= speed of light u = the velocity of the pulsing mirror. a. 120 x10 14HZ b. 8.02 x10 15HZ c. 11.2 x10 1°HZ d. 5 x10 14HZ +e. 1.2 x10 14HZ
> Michelson interferometer generates a beat pattem for a monochromatic radiation source. The frequency of the resulting interferogram is 2.40 x 104 Hz. Determine the frequency of incident radiation that created that interferogram given the fact that the mirror was pulsing over a distance of 3 cm at a frequency of 1 Hz. The relevant equation is v2u or v = 2u v = frequency of the incident radiation f= frequency of the interferogram reaching the detector C= speed of light u = the velocity of the pulsing mirror. a. 120 x10 14HZ b. 8.02 x10 15HZ c. 11.2 x10 1°HZ d. 5 x10 14HZ +e. 1.2 x10 14HZ
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Transcribed Image Text:> Michelson interferometer generates a beat patterm for a monochromatic radiation source. The
frequency of the resulting interferogram is 2.40 x 104 Hz. Determine the frequency of incident
radiation that created that interferogram given the fact that the mirror was pulsing over a distance
of 3 cm at a frequency of 1 Hz.
The relevant equation is
f =
or v
v= frequency of the incident radiation
f= frequency of the interferogram reaching the detector
C= speed of light
u = the velocity of the pulsing mirror.
a. 120 x10 14HZ
b. 8.02 x10 15HZ
c. 11.2 x10 1°HZ
d. 5 x10 14HZ
+e. 1.2 x10 14HZ
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