The discussion centers on the concept of aether in relation to Maxwell's equations and the propagation of light. Participants clarify that Maxwell's equations do not necessitate an aether, as inertial reference frames can define all points in the universe without it. The Michelson-Morley experiment is highlighted as a pivotal moment that led to the dismissal of the classical aether concept. Albert Einstein's later interpretation introduces a new form of aether, which does not serve as a physical medium but is essential for the propagation of light in the context of general relativity.
PREREQUISITESPhysicists, students of theoretical physics, and anyone interested in the evolution of concepts related to light propagation and the nature of space-time.
You may be confusing 'inertial reference frame' with the aether. A mass that is not subject to a net force (ie is moving at uniform velocity) defines an inertial reference frame - all points in the universe at all times can be expressed as coordinates in that reference frame and the laws of physics as measured in that frame will be the same as that measured in any other inertial reference frame. The aether was thought to define a particular inertial reference frame, based on the theory that the aether acted as the 'medium' for light. Its non-existence does not imply anything about other inertial reference frames.jenst said:I've never understood how the aether was dispensed with. It is said that Maxwell's equations don't require it. If that is the case, then where do the x, y and z axes come from if not from an aether.
There are several threads with this quote explained: it is the accepted view of the physics community that Einstein's aether is not the lumiferous aether of the 19th century. It doesn't have several features that were key elements of the lumiferous aether. Namely, there is no physical medium (ie air for sound waves) and there is no motion through it.evthis said:in Ether and the Theory of Relativity, Albert Einstein eventualy writes:"According to the general theory of relativity, space without ether is unthinkable; for in such space there not only would be no propagation of light, but also no possibility of existence for standards of space and time (measuring-rods and clocks), nor therefore any space-time intervals in the physical sense."
Einstein stated that there must be an aether for the propagation of light...why would he say this if light didn't need a physical medium for which to travel through?russ_watters said:that Einstein's aether is not the lumiferous aether of the 19th century. It doesn't have several features that were key elements of the lumiferous aether. Namely, there is no physical medium (ie air for sound waves) and there is no motion through it.
Because he was defining a new aether. Essentially, he was saying, there is still 'something' there, it just isn't what we used to think it was.evthis said:Einstein stated that there must be an aether for the propagation of light...why would he say this if light didn't need a physical medium for which to travel through?
russ_watters said:Because he was defining a new aether. Essentially, he was saying, there is still 'something' there, it just isn't what we used to think it was.
evthis said:So what properties does this new aether require for it to be able to propagate light?