Sounds like nonsense to me. "Space-time" is a framework, not something solid that moves. However I often find that there are parts of cosmology I know nothing about so this could be one of those times. Also, "faster than c relative to WHAT?arlesterc said:I was watching a seminar on black holes and one of the participants threw out as an aside that spacetime could travel faster than the speed of light - so within spacetime nothing could travel faster than spacetime but spacetime itself however was not bound by this rule so it could move faster than the speed of light. Is that correct? If so, is there some speed postulated that that even space-time could not move faster than?
Yeah, that could be it, but I certainly would not apply the word "travel" to that. Recession is different than traveling, else we would have to say that the galaxies out at the outer reaches of our observable universe are "traveling" at about 3c, which would be ridiculous. They are receding at about 3c.debroglie said:In the beginning, space inflated at a rate vastly exceeding the speed of light. This was perhaps mediated by a hypothetical particle called the inflaton. Since space isn't actually made of stuff to which laws like those governing baryonic matter apply, this could occur. I suspect that is to what the lecture was referring.
phinds said:Yeah, that could be it, but I certainly would not apply the word "travel" to that. Recession is different than traveling, else we would have to say that the galaxies out at the outer reaches of our observable universe are "traveling" at about 3c, which would be ridiculous. They are receding at about 3c.
debroglie, I'm not arguing with you at all here, I've added my comments to my agreement w/ you for the sake of the OP.
mfb said:Distances between objects can increase or decrease faster than c. Is this "motion of space faster than light"? A matter of semantics I guess. It is not a motion of spacetime, because spacetime is the overall construct - it cannot move in time, it includes the time dimension already.
arlesterc said:I was watching a seminar on black holes and one of the participants threw out as an aside that spacetime could travel faster than the speed of light - so within spacetime nothing could travel faster than spacetime but spacetime itself however was not bound by this rule so it could move faster than the speed of light. Is that correct? If so, is there some speed postulated that that even space-time could not move faster than?
If you look at the units, you will see that they don't match up in this statement.debroglie said:space inflated at a rate vastly exceeding the speed of light
No, according to Einstein's theory of relativity, the speed of light is the maximum speed at which any object or information can travel through spacetime. This means that spacetime itself cannot move faster than the speed of light.
If spacetime were to move faster than the speed of light, it would challenge our current understanding of physics and the laws of the universe. It would also have significant implications for time travel and the possibility of traveling to distant galaxies.
No, since the speed of light is the maximum speed at which information can travel, it is impossible to observe or measure spacetime moving faster than the speed of light. This is due to the fact that any observation or measurement would require information to travel through spacetime, which is limited by the speed of light.
There are some theories, such as the Alcubierre drive, which propose ways to manipulate spacetime to achieve faster-than-light travel. However, these theories are still hypothetical and have not been proven or observed in reality. Additionally, there is currently no empirical evidence that suggests spacetime can move faster than the speed of light.
The Big Bang theory states that the universe began as a singularity and has been expanding ever since. This expansion is thought to have occurred at a speed faster than the speed of light, but it is not the same as spacetime itself moving faster than the speed of light. The expansion of the universe is a result of the fabric of spacetime stretching, rather than spacetime itself moving through space at a high speed.