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  How to explain the null result of the Michelson-Morley experiment on relative velocity of earth to the ether using FitzGerald-Lorentz contraction hypothesis?

+ 2 like - 1 dislike
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In Jackson's classical electrodynamics, he claimed that the null result of the Michelson-Morley experiment can be explained without abandoning the concept of ether by the FitzGerald-Lorentz contraction, but I don't know why. Thanks.

Closed as per community consensus as the post is Interesting but well known at the undergraduate level
asked Apr 23, 2014 in Closed Questions by Timz (5 points) [ revision history ]
closed Apr 25, 2014 as per community consensus
Most voted comments show all comments

In fact, I think this is a rather good question, just way below the standard for PhysicsOverflow.  

I think that the question can fairly be understood as undergraduate. However, it allows answers that are not obviously undergraduate (not known by most undergraduates, nor by many graduates). In particular, I mean answers explaining Lorentz-Pauli-Bell's (and some times Einstein's too) stance on special relativity. I think that it should not be closed.

@Dilaton thanks, you are a nice guy.

I really don't understand why you all want to keep this primary school homework here, but this nonsense will drive important contributors away, all just to keep some 5-rep users happy. Keeping these kinds of questions open is a perfect recipie to totally ruin the site.  

People aren't going to listen to Ron and not vote on such questions, they will vote on them, and people who asks these primary school questions will get reputation, enough reputation to participate in community moderation, and this site will be a replica of Physics.SE. I hope none of us wants this to happen.  

And answering these questions is a perfect recipe to encourage this kind of questions. 

Ok, then close it now, OP already has the answer, but leave the text visible, as a closed mooted unvotable question (reason being too elementary).

The answer is not so trivial, because it requires understanding exactly what Michaelson Morley tells you about relativity, and what Fizeau tells you, and that you really need both to conclude that physics doesn't depend on the motion-state. But I don't want to encourage low-level questions any more than you, but I also think it is wrong to send someone away without an answer.

So perhaps answer, close, no rep, and leave it visible closed with an answer that is editable, so people can modify it in the future. Like CW?

Most recent comments show all comments

@dimension10 The Michelson Morley experiment is taught to UK A level physics students aged 16 and over, which is college level, and again aged 18 as physics undergraduates. Maybe the standards of education are higher in your country and you were taught this in primary school.

@Timz please do not be upset. In fact as drake pointed out the case may not be so clear cut as first considered...

1 Answer

+ 0 like - 0 dislike

The Michaelson Morley experiment is a static experiment in time, the interferometry isn't sensitive to when the light bounces off the mirrors, only to the distance to the mirrors. This means it doesn't serve to test the failure of simultaneity aspects of relativity, or the time-dilation aspects, It just measures spatial distances. So keeping the idea of a preferred frame, you can explain the null-result by saying the arm in the direction of motion contracted when moving relative to an absolute standard of rest, this is Fitzgerald theory.

Lorentz makes this contraction a natural thing by finding the transformations which keep the Maxwell-equations invariant, and then you get failure of simultaneity too, meaning moving observers have a tilted t axis and x axis, not a scaled up x axis (so shrunk down length measurements). The blown-up x-axis in relativity comes from the geometrical projection of a fixed relativistic-length moving arm to nonmoving coordinates, the geometry is explained from various points of view on stackexchange: http://physics.stackexchange.com/questions/14362/help-me-gain-an-intuitive-understanding-of-lorentz-contraction .

Really, to make relativity, all you need is to keep the Minkowski metric invariant, or equivalently, the wave-equation invariant, or in more elementary terms the speed-of-light invariant, this is Einstein's point. Then the physics becomes completely frame invariant, this is Poincare's point, and you reproduce the Fitzgerald contraction when analyzing a static experiment in a moving frame.

The distinction between the two is that Fitzgerald's idea is phenomenological, it just introduces an ad-hoc contraction, while the Lorentz theory is an actual theory that reproduces the phenomenology, with a nontrivial prediction regarding time dilation and so on. Michaelson-Morley as a test isn't strong enough to discriminate between the two possibilities experimentally.

as an experimental point, to discriminate between ether and Fitzgerald contractions and actual Lorentz transformation, you need an experiment which tests time, kinematics, or tests them indirectly using mass-energy or the dynamics of fast-moving electrons. Fast-moving muon lifetime experiments can directly test time dilation, but these came decades later. The experiment which actually was most sensitive to the time-aspects of relativity was the earliest of all, the 1851 Fizeau experiment. This did a velocity addition of a nonrelativistic velocity and the relativistic speed of light in a medium, and velocity addition is a real test of relativistic kinematics, it doesn't work in Fitzgerald theory (where time is unaltered, and the moving medium has negligible contraction, so velocities still should add normally). The Fizeau experiment was the main non-thought actual experiment which motivated Einstein, not Michaelson Morley, although Michaelson Morley motivated everyone else.

From Wikipedia's article on Fizeau's experiment, it seems that Lorentz introduced the failure of simultaneity to account for the results of the Fizeau experiment--- he used the correct first order in v relativistic tilt in the x-axis in the moving water medium, so the "t'=t-vx" part of the Lorentz transformation came directly from Fizeau. The denominator, the $\sqrt{1-v^2}$, is second leading order in v, and that came from Fitzgerald, and putting the two ideas together self-consistently, Lorentz made the transformations. The systematic modern geometric derivation seems to be due to Einstein and Poincare.

Historically, the first real test that discriminated between different dynamical theories of fast-motion was the change in the mass of a fast moving electron, detected by the shift in cyclotron frequency. This eventually came out on the side of Einstein, as opposed to an Abraham ether theory with a spherical electron. I don't think anyone actually bothered to make a pure Fitzgerald contraction theory, historically, possibly because relativity was obviously a better theory.

Theoretically, once you establish that the physics is fully frame invariant, you can throw out the ether, because the ether, by historical definition, was introduced as the thing that picked out the rest-frame. Once there is no rest-frame, any ether idea is just philosophy. The philosophy is discussed by Bell, in the one somewhat off-topic section of his book "Speakable and Unspeakable in Quantum Mechanics". It is not completely off-topic, because to reproduce quantum-nonlocality with hidden variables, you need nonlocal things to happen, which leads you to consider whether you can have a "hidden ether" which only serves to define some sort of objective wave-function collapse, as in Bohm's theory.

answered Apr 23, 2014 by Ron Maimon (7,730 points) [ revision history ]
edited Apr 23, 2014 by Ron Maimon

Or one might take the alternative point of view: there is no observational evidence for the equivalence of all reference frames, being length contraction and time dilation purely dynamical effects. Whether one consideres one of them the most natural or economical is a matter of (philosophical) taste, positivistically equivalents. I personally considerer the equivalence of rereference frames somehow more natural. However, arguably, someone might say that the equivalence of reference frames entails a condition between every pair of reference frames, being, thereby, less economical.

@RonMaimon Thanks a lot for the rather detailed explanation together with the detailed history!





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