The discussion centers on the experiments that demonstrate the invariance of the speed of light in a vacuum. The Michelson-Morley experiment is identified as significant for detecting the isotropy of light speed, but it does not involve a moving observer. The GPS system is highlighted as a practical example of how the speed of light remains constant despite the relative motion of satellites and Earth. The forum participants recommend reviewing the "experimental basis of relativity" thread for a comprehensive list of relevant experiments.
PREREQUISITESPhysics students, researchers in relativity, engineers working with GPS technology, and anyone interested in the fundamental principles of light propagation in vacuum.
Hi, I have gone to the top of this forum but I am not sure of which sticky thread you are referring to.Dale said:The MM experiment was attached to the earth, so it was moving at some point during the day and year. However, the MM experiment only detected the Isotropy of c. For a more complete account of the relevant experiments you should read the sticky thread at the top of the forum.
Oops, I thought this was in the relativity forum. I have moved the thread. I was referring to the "experimental basis of relativity" thread, but here is a direct linkfreshnfree said:Hi, I have gone to the top of this forum but I am not sure of which sticky thread you are referring to.
We pull a vacuum and do experiments.freshnfree said:how we do we know what light is doing in a vacuum
This is described in detail in the link above.freshnfree said:What kind of experiments?
what type of a scenario?freshnfree said:we cannot create very large vacuums and light travels incredibly fast. i cannot see any specific experiment that refers to this type of scenario.
The scenario I am referring to is one which would show that the speed of light is invariant. So we would have a vacuum and a moving observer and a light wave. Could you please tell me of a known experiment of that type of scenario.Dale said:what type of a scenario?
There are many listed experiments done in vacuum. I don't know what being large or small has to do with anything. Just search with the word vacuum.
freshnfree said:The scenario I am referring to is one which would show that the speed of light is invariant. So we would have a vacuum and a moving observer and a light wave. Could you please tell me of a known experiment of that type of scenario.
Every experiment performed on Earth involves a moving observer, as every point on the surface of the Earth is moving. Do you mean an observer moving relative to the source of the light wave?freshnfree said:The scenario I am referring to is one which would show that the speed of light is invariant. So we would have a vacuum and a moving observer and a light wave. Could you please tell me of a known experiment of that type of scenario.
All of the experiments in sections 3.1-3.4 do that.freshnfree said:The scenario I am referring to is one which would show that the speed of light is invariant.
The phrase "a moving observer" doesn't mean anything because every observer is at rest in one frame and moving in all other frames. I think that you mean "an observer moving relative to the source". This would include all of the experiments in 3.3. Be sure to read the explanation of "optical extinction", which is the key criticism regarding whether an experiment has a good enough vacuum.freshnfree said:So we would have a vacuum and a moving observer and a light wave.