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byron178
Sep16-11, 03:36 PM
When something has a phase velocity greater than the speed of light,will it travel backwards in time in one frame?
ghwellsjr
Sep16-11, 04:23 PM
Nope.
byron178
Sep16-11, 06:45 PM
Nope.

but relativity says that if something were to travel faster than light than in one frame it will travel backwards in time.
Passionflower
Sep16-11, 06:55 PM
Nope.
Hmm, how do you conclude that?
HallsofIvy
Sep16-11, 07:08 PM
but relativity says that if something were to travel faster than light than in one frame it will travel backwards in time.
No, it doesn't. It says the normal matter cannot travel faster than light (in any frame).
Passionflower
Sep16-11, 07:13 PM
No, it doesn't. It says the normal matter cannot travel faster than light (in any frame).
I would agree with that but do you think that that would imply that the phase does not go backwards in time in another frame?
byron178
Sep17-11, 04:03 PM
I would agree with that but do you think that that would imply that the phase does not go backwards in time in another frame?

ive read that its like an illusion the phase velocity traveling faster than light.
HallsofIvy
Sep17-11, 05:21 PM
I would agree with that but do you think that that would imply that the phase does not go backwards in time in another frame?
Apparently then the problem is that you do not understand what "phase" velocity means. "Phase" velocity is a property of a wave. There is nothing with mass moving at the "phase" velocity of a wave.
Passionflower
Sep17-11, 08:42 PM
"Phase" velocity is a property of a wave. There is nothing with mass moving at the "phase" velocity of a wave.
Yes, and I implied that that was not the case?

Phase velocity can be observed, and thus it can also be observed in many frames of reference.
Phrak
Sep18-11, 05:55 AM
The propagation of emf in a waveguide has a wave velocity greater than c.

What does "backwards in time" mean?
mathfeel
Sep19-11, 01:21 AM
Yes, and I implied that that was not the case?

Phase velocity can be observed, and thus it can also be observed in many frames of reference.

Plenty of things can be observed to be faster than speed of light. But they don't transmit information or matter.

Consider two very very long straight rulers, both moving at uniform speed (<c of course) perpendicular to their elongated direction. The point at which they cross has speed proportional to 1/tan(theta), where theta is the angle between them. So this point can travel at any arbitrarily high speed. Just like any point of the wave front of a dispersive wave.
Passionflower
Sep19-11, 01:40 AM
Plenty of things can be observed to be faster than speed of light. But they don't transmit information or matter.

Yes I am aware of that.

Did anyone claim the contrary?

Not every single posting with a question about relativity is designed to question its validity as some apparently seem to think.