Proof that the speed of light is constant?

In summary, the conversation discusses the search for an experiment that proves the constant speed of light and its relation to special relativity. The Michelson-Morley interferometer is mentioned as a possible experiment, but the concept of proof is questioned. The conversation also touches on the idea of light being stopped or sped up past its normal speed in different mediums, but it is clarified that this does not contradict the constant speed of light in a vacuum. The discussion ends with a request for more information on experiments that support the constant speed of light.
  • #1
Phalanx
10
0
hey, I am looking for an experiment that prooves that the speed of light is constant as a preamble for a talk on the phenomena related to special relativity such as time dilation and length contraction.

As far as I can see many websites are claiming that the Michelson-Morley interferometer prooves that the speed of light is constant but as far as I can see this experiment doesn't work because the light traveling back on itself would cancel out any effect the rotation of the Earth would have. Even if this experiment does work, i do not understand how the speed of light must be constant just because there is no stationary ether.
 
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  • #2
Phalanx said:
hey, I am looking for an experiment that prooves that the speed of light is constant as a preamble for a talk on the phenomena related to special relativity such as time dilation and length contraction.
As far as I can see many websites are claiming that the Michelson-Morley interferometer prooves that the speed of light is constant but as far as I can see this experiment doesn't work because the light traveling back on itself would cancel out any effect the rotation of the Earth would have. Even if this experiment does work, i do not understand how the speed of light must be constant just because there is no stationary ether.

Er.. be careful with the use of the word "proof". In mathematics, these are logical derivations at which you arrive. In physics, many of these things are postulates which are VERIFIED to be either valid or not. The constant speed of light is a postulate of Special Relativity, which are then verified either via measurements, or through the consequences of such a postulate. You don't "prove" it, you verify its validity.

Zz.
 
  • #3
Phalanx said:
hey, I am looking for an experiment that prooves that the speed of light is constant as a preamble for a talk on the phenomena related to special relativity such as time dilation and length contraction.
As far as I can see many websites are claiming that the Michelson-Morley interferometer prooves that the speed of light is constant but as far as I can see this experiment doesn't work because the light traveling back on itself would cancel out any effect the rotation of the Earth would have. Even if this experiment does work, i do not understand how the speed of light must be constant just because there is no stationary ether.

but.. it is not, Scientists have stopped light and even sped it up past c.

it might only be on a quantum level that those effects can be had, but it does show that c is not immutable... but then I guess you would have to ask if in those instances if it was just the frame of reference that the experiment had.
 
  • #4
Phalanx said:
hey, I am looking for an experiment that prooves that the speed of light is constant
Substitute the word "supports" for "proves" and you'll make people here a lot happier. :smile:
As for experiments, take your pick:
List of experiments on speed of light
 
  • #5
ComputerGeek said:
but.. it is not, Scientists have stopped light and even sped it up past c.

In a medium, yes, but not in a vacuum. The fact that light travels in different speeds in different media does not contradict relativity.
 
  • #6
c is just saying it's constant, it doesn't say anything about the speed of the light.
 
  • #7
jtbell said:
In a medium, yes, but not in a vacuum. The fact that light travels in different speeds in different media does not contradict relativity.

but, does the fact that they were able to increase the speed of a photon past c show that the speed that light moves in a vacuum is not the maximum speed of particle sin the universe?
 
  • #8
c simply states that light will remain at a constant speed unless slowed by a medium.

If they managed to make light faster than the "normal" speed at which it travels, what is used to fill "c" in e=mc^2, simply means that they either removed or replaced a medium. This doesn't contradict the fact that the speed of light is constant, it mearely backs up the fact that it will slow down in a median that is more dense than the previous...and vice-versa.
 
  • #9
ComputerGeek said:
but, does the fact that they were able to increase the speed of a photon past c show that the speed that light moves in a vacuum is not the maximum speed of particle sin the universe?

No such thing occurs. The NEC experiment of apparent superluminal signal does NOT violate the c limit. In fact, if you read the paper, no part of the pulse exceeded c. It is due to the pulse shapping due to the medium and thus, changing the group velocity of the pulse, NOT the photon.

Zz.
 
  • #10
ComputerGeek said:
but.. it is not, Scientists have stopped light and even sped it up past c.
it might only be on a quantum level that those effects can be had, but it does show that c is not immutable... but then I guess you would have to ask if in those instances if it was just the frame of reference that the experiment had.

Stopping light is no big deal it happens all the time, OTOH you will need to post a link to experimental evidence of LIGHT traveling faster then c.
 
  • #11
okay... well then what experiments support that the speed of light is constant? and can someone please explain to me how the michelen-morley interferometer works or direct me somewhere?
 
  • #12
The people who ran the experiment are confusing things because when they say that they managed to get light to exceed c they don’t explain themselves properly.
Firstly when Relativity say light cannot travel faster than c it is really taking about information in light and not light.
In the experiments light manages to exceed c because their measurements are group velocity rather than front velocity. it is the front part of the wave which contains information, this part cannot exceed c ,the central fat part which dosent contain information and is basically pure light can exceed c if traveling through certain meduims like cesium , which is specially prepared for the experiment.
 
  • #13
ukmicky said:
The people who ran the experiment are confusing things because when they say that they managed to get light to exceed c they don’t explain themselves properly.
Firstly when Relativity say light cannot travel faster than c it is really taking about information in light and not light.
In the experiments light manages to exceed c because their measurements are group velocity rather than front velocity. it is the front part of the wave which contains information, this part cannot exceed c ,the central fat part which dosent contain information and is basically pure light can exceed c if traveling through certain meduims like cesium , which is specially prepared for the experiment.
Not quite. Specially prepared Cesium can capture, then be triggered to emit a photon some time later. The speed of light is not, and has not been execeded.
 
  • #14
Not in a vacuum no .
what i was trying to say just not very well, was that even though light did travel through the medium (cesium)faster than c,as it was traveling through cesium and not a vacuum and as the only important part in regards to the rules being violated is the part of the wave which contains the information the front of the wave and as that part didnt exceed the speed limit no rules were violated.
 
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  • #15
Phalanx said:
Even if this experiment does work, i do not understand how the speed of light must be constant just because there is no stationary ether.
i think we can have a feel for why the speed of E&M propagation should be the same for all inertial reference frames. it really just comes from Maxwell's Eqs. and the knowledge that there is no ether medium that E&M is propagated in. i mean, how do we tell the difference between a moving vacuum and a stationary vacuum? if we can't, if there really is no difference between a moving vacuum and a stationary vacuum, that such a concept is really meaningless, then whether the light that you are measuring originated from a flashlight mounted on a rocket moving past you at [itex] c/2 [/itex] or from a stationary flashlight, how does that change the fact that a changing E field is causing a changing B field which is causing a changing E field, etc.? that propagation of an E field and B field disturbance, which has velocity [itex] 1/ \sqrt{ \epsilon_0 \mu_0 } [/itex]? how is it different?
whether you are holding the flashlight or moving past it at high velocity, Maxwell's Eqs. say the same thing regarding the nature of E&M in the vacuum. that is qualitatively different for waves that require a substantive medium to travel in, e.g. sound. if the wind is moving past you from left to right at 10 m/s, a measurement of the speed of sound coming from a source on your left will be 20 m/s faster than a sound emanating from a source on your right. but there is no (ether) wind for electromagneting radiation. so once the E&M wave has left its source, does it have any contact with it anymore? can it "remember" that it came from a high speed moving flashlight (relative to some observer) or a stationary flashlight? it can't. and if there is no "wind" to carry E&M, what would be left for it to know it should move any faster, just because its source was moving?
 
  • #16
Phalanx said:
okay... well then what experiments support that the speed of light is constant?

See the link that I posted in posting #4 in this thread.
 
  • #17
Lets give this a go.
Do you accept e = mc2 to be true?
then c = [tex]^{+}_{-}[/tex][tex]\sqrt{e/m}[/tex] let's consider the + only.
c = [tex]\sqrt{e/m}[/tex]
Do you accept that the amount of energy associated with a specific mass is constant?
If so then e/m is constant, implying that c is constant.

Mauro.
 
  • #18
Yes, C is constant. I'm not sure I see your point...
 
  • #19
I think I see what he is saying, not that I'm well versed in this at all, please allow me to clarify:

c=+- e/m. (I'm going to guess we can throw out the negative...)
c=e/m?

So he is saying is there a specific amount of energy for any given amount of mass, regardless of whatever composes this mass? (ie, does a ton of feathers have the same energy as a ton of Uranium.) Because, the mass going into the energy, according to this, should be constant. I think. Mabye.
 
  • #20
ComputerGeek said:
but.. it is not, Scientists have stopped light and even sped it up past c.

scientists have sped light past c?? how was that possible,, how could they see or record the results?
 
  • #21
doc.madani said:
scientists have sped light past c?? how was that possible,, how could they see or record the results?

He was (I hope) referring to experiments done where light passes through a medium where the speed of light is (effectivly) smaller -and in some exotic media such as BE condensates MUCH smaller- than the speed of light in vacuum.
 
  • #22
f95toli said:
He was (I hope) referring to experiments done where light passes through a medium where the speed of light is (effectivly) smaller -and in some exotic media such as BE condensates MUCH smaller- than the speed of light in vacuum.

It is the NEC experiment from a while back on an anomalous medium that showed a group velocity faster than c. The unfortunate effect from this is that people only read the headlines, but not the details, which showed that no part of the wave went faster than c.

We need someone to volunteer to write a FAQ entry on this (the NEC expt and the apparent "faster than c" observation), since this has been asked quite often. Anyone interested? You may PM me if you wish.

Zz.
 
  • #23
mauroz said:
Lets give this a go.
Do you accept e = mc2 to be true?
then c = [tex]^{+}_{-}[/tex][tex]\sqrt{e/m}[/tex] let's consider the + only.
c = [tex]\sqrt{e/m}[/tex]
Do you accept that the amount of energy associated with a specific mass is constant?
If so then e/m is constant, implying that c is constant.

Mauro.

This is misleading, because it gives the implication that c can be DERIVED, which it can't. There are no first principle derivation for c, and you're welcome to scour all the literature available to satisfy yourself on this.

Zz.
 
  • #24
mauroz said:
Lets give this a go.
Do you accept e = mc2 to be true?
then c = [tex]^{+}_{-}[/tex][tex]\sqrt{e/m}[/tex] let's consider the + only.
c = [tex]\sqrt{e/m}[/tex]
Do you accept that the amount of energy associated with a specific mass is constant?
If so then e/m is constant, implying that c is constant.

Mauro.

what happens to the negative variable in the equation?

also is there any evidence that an object can travel faster than c?
 

1. What is the speed of light?

The speed of light is a physical constant that represents the speed at which light travels in a vacuum. It is approximately 299,792,458 meters per second.

2. How was the constancy of the speed of light first discovered?

The constancy of the speed of light was first discovered by the Danish astronomer Olaus Roemer in the late 17th century. He observed that the time it took for light to travel from Jupiter to Earth changed depending on the distance between the two planets, leading him to conclude that the speed of light must be constant.

3. Why is the constancy of the speed of light important?

The constancy of the speed of light is important because it is a fundamental principle of the theory of relativity, which is one of the most well-established theories in modern physics. It also forms the basis for many other important scientific concepts, such as the concept of the space-time continuum.

4. How has the constancy of the speed of light been proven?

The constancy of the speed of light has been proven through numerous experiments and observations, including the famous Michelson-Morley experiment in 1887 and the more recent measurements of the Cosmic Microwave Background Radiation. These experiments consistently show that the speed of light remains constant regardless of the observer's frame of reference.

5. Is the speed of light truly constant in all circumstances?

According to current scientific understanding, the speed of light is indeed constant in all circumstances. However, some theories, such as string theory, propose that the speed of light may have been different in the early universe or at extremely high energies. These theories are still being studied and debated, but for now, the evidence supports the constancy of the speed of light.

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