Trying to understand simultaneity of events and time-dilation on a Universe scale, I would like to know must time pass more slowly, right now, relative to our current inertial reference frame, inside galaxies that are currently located at say "half way" to the Hubble Horizon because such galaxies are moving at around .5c? In this case no acceleration was experienced to generate the speed difference, just space expansion.

I can't see how it could not be true, (I think the Lorentz transformation still hold) but I think if it is true it leads to problems.


The point of the unification of space and time in relativity is that there's no sense in asking what's happening "right now" at a different position. It makes as much sense as asking what's happening "right $y$" at a different $x$ in Euclidean geometry. If you fix a Cartesian coordinate system then "right $y$" is mathematically well defined, but being mathematically well defined doesn't make it any more sensible to talk about. The laws of nature don't have any notion of distant simultaneity and don't care about your coordinates.

There are situations in which there's a coordinate-independent, geometric difference between two curves (worldlines) in spacetime that justifies saying that one is shorter (less elapsed proper time) than the other in some absolute sense. One such case is when the curves meet at two spacetime points and you're only interested in the length between those points (as in the twin paradox/effect). Another case is gravitational time dilation, where the curves are analogous to circles of constant latitude on the earth.

Worldlines moving with the Hubble flow are more like lines of constant longitude on the earth. The distance between them varies (as a function of latitude), and as a result if you draw rhumb lines from one of them to another (analogous to lightlike worldlines), they'll arrive at a different separation than they departed at (analogous to red/blueshift). But the situation is symmetric, and it makes no sense to say that one longitude line is longer than another.

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  • $\begingroup$ This is not suppose to be about a "right now" absolute concept. To be clearer, you mentioned the twin paradox. Is it not fair to say that time passes more slowly for the twin traveling at relativistic speeds say v=.5c, with respect to the inertial frame of the Earth bound twin?? ....This is just an extension of that idea, something existing, an alien, where space is expanding to create a v=.5c recession, due to Hubble expansion... would time flow more slowly for him, just as it would flow more slowly for the traveling twin who is only between Earth and Alpha Centauri? $\endgroup$ – ParityViolator Sep 12 at 0:00

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