4. Michelson-Morley Revisited A shift in one fringe in the Michelson-Morley experiment corresponds to a change in the round-trip travel time along one arm of the interferometer by one period of vibration of light (about 2.0 x by 90. What velocity through the ether would be (Take the length of the interferometer arm to be 11 m). expansions helpful for this problem and problems you 10-15 s) when the apparatus is rotated deduced from a shift of one fringe? Hint: You may find the following and will see later in the class. u? 2 1+ +.. c2 1 u? 2 1+ 2 c2 1 1 ... u2 1- u2

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4. Michelson-Morley Revisited
10-15 s) when the apparatus is rotated
deduced from a shift of one fringe?
Hint: You may find the following
A shift in one fringe in the Michelson-Morley experiment corresponds to a change in the
round-trip travel time along one arm of the interferometer by one period of vibration of light (about 2.0 x
by 90. What velocity through the ether would be
(Take the length of the interferometer arm to be 11 m).
expansions helpful for this problem and problems you
and
will see later in the class.
u?
2 1+
+ ...
c2
1
1
1 u?
2 1+
+ ...
u2
1
c2
2 c2
u?
-
Transcribed Image Text:4. Michelson-Morley Revisited 10-15 s) when the apparatus is rotated deduced from a shift of one fringe? Hint: You may find the following A shift in one fringe in the Michelson-Morley experiment corresponds to a change in the round-trip travel time along one arm of the interferometer by one period of vibration of light (about 2.0 x by 90. What velocity through the ether would be (Take the length of the interferometer arm to be 11 m). expansions helpful for this problem and problems you and will see later in the class. u? 2 1+ + ... c2 1 1 1 u? 2 1+ + ... u2 1 c2 2 c2 u? -
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