Submitted by modsarebrainstems t3_1018gn0 in askscience
mfb- t1_j2o8rpd wrote
Reply to comment by MiffedMouse in How do galaxies move? by modsarebrainstems
> After a certain distance, things are moving away from us faster than the speed of light. Those objects are unreachable to us now
That's a common misconception. We see things where the distance to them always increased faster than the speed of light. The matter that emitted the CMB we see today is an example. The number of things we can see is still increasing as the universe gets older.
In the distant future, in a universe completely dominated by dark energy, your statement will be right.
mahoagie t1_j2qe98p wrote
Please say more about dark matter- in its universe, why would that be true?
mfb- t1_j2rbdcl wrote
Dark energy (which I discussed) and dark matter (which I didn't) are completely different things.
A universe with only dark energy (or where everything else is negligible) expands exponentially, i.e. if you follow the distance between two objects over time then this distance increases exponentially. It has a constant expansion rate. If you emit light at a distance where the distance increases at the speed of light then the light will always keep that distance - the expansion perfectly matches the speed of the light, and the expansion rate doesn't change so the light will never come closer.
In our universe, where matter still plays a role (~3/4 dark energy, 1/4 matter today), the expansion rate is decreasing a bit. Light emitted at the same distance of "light speed distance increase" doesn't get closer to us today, but it will start getting closer "tomorrow" (will take hundreds of millions of years before this is significant, of course).
[deleted] t1_j2rs4sq wrote
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[deleted] t1_j2qju0h wrote
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MiffedMouse t1_j349be8 wrote
The ant on a rubberband example does not work for the universe. Even if the Hubble constant was constant with time, the universe expands exponentially, not linearly (so the “universe” rubberband length goes 1,2,4,8; not 1,2,3,4). An ant on an exponentially growing rubberband cannot reach everywhere.
mfb- t1_j34a80w wrote
For the past 10 billion years a linear expansion was a pretty decent approximation. The early universe slowed its expansion, which makes the relative reach of the ant even larger (or, equivalently, the early recession speeds were larger).
The Hubble rate is still decreasing. It's expected to approach a constant in the future. I covered that in the second paragraph:
> In the distant future, in a universe completely dominated by dark energy, your statement will be right.
[deleted] t1_j3ku96x wrote
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