Olber's Paradox: if the universe is infinitely large and has existed for an infinite period of time, then everywhere you look in the night sky should end in a star. >look in sky >there's dark spots >"well I guess the universe hasn't existed forever, then"
>look again with a really long exposure time >the dark spots are no longer dark
Why are we sure the universe hasn't existed indefinitely again?
the universe isn't infinitely large nor infinitely old
Luke Butler
Do you have any evidence that supports that assertion?
I might claim that the Ultra Deep Field photo supports the hypothesis that the universe is infinitely old and therefore infinitely large, because if you wait long enough you'll expose an image of something very far away. If you wait longer you'll see something even farther away.
Ian Bailey
I do. You'll surely arrive at the trivial evidence by thinking it about yourself. Instead of asking stupid questions.
Bentley Watson
If you accept the Big Bang model then surely you accept ?
Henry Jones
Here's a nice paper about different cosmological horizons, which goes significantly further than a lot of standard explanations:
the universe is both infinitely old, it just recycles itself in a big crunch
Lincoln Moore
The universe reversing course seems implausible. More likely it expands until it explodes again, everywhere at once.
Luis King
>brainlet attempts though experiment
Blake Bennett
False.
If you were to take an "ultra deep field" shot of a dark spot in Hubble's UDF you would maybe see a few more super redshifted old galaxies and some of the first stars, but other than that you would just be looking at the CMBR, which is in fact what proves that the universe isn't infinitely old or large.
Justin Young
Google WMAP images. Go from there
Brandon Taylor
Actually let me modify that last sentence - the CMBR doesn't prove the universe isn't infinitely large, only that it isn't infinitely old. There could be an infinite amount of space and galaxies that you would see with a powerful telescope if it weren't for the fact that the limiting factor in how far you can see is the age of the universe.
And there are galaxies that exist outside our field of view, but we'll never get the chance to see them because they're further away than the universe is old.
Ryder Carter
the universe..heh..what a concept
Lucas Ortiz
...
Christian Collins
>actually playing the Danish What's it like being
Lucas Allen
Feels pretty bad desu.
Julian Harris
I don't see how this is a paradox. Photons are emitted from the surface of a star as a spherical emission field and that emission field diminishes by the inverse square law.
At the surface of the star the photons are densely packed as they are emitted but the farther away I am from the star the less dense that spherical emission field will be. Every time I double the radius of a sphere I divide the field density by 4.
Easton Carter
Come on, this is intro level astrophysics guys.... this board is sad.
The answer is that the universe is expanding, and light from very far away stars becomes dimmer and dimmer, and some will never reach us at all.
Dominic Gray
This proves nothing about the age or size of the universe though. You have to take that extra step and observe that all distant galaxies are accelerating away from us. Then if you trace all the trajectories backwards through time you show that everything was once at a single point in space, and this is what we call the beginning of the universe.
Eli Carter
I never said it did. I'm just saying the reason the night sky isn't full of starlight is because of the cosmic horizon and redshifting of light that is further away.
Samuel Mitchell
The proper conclusion to draw is that there are uncountable many stars, but not an infinite number of stars.
The other conclusion to draw is that if the universe's expansion is accelerating, and it is, it is not infinite.
The other conclusion to draw is that if there were infinite time, we would be in heat death right now, and we're not.
Luis Foster
>I'm just saying the reason the night sky isn't full of starlight is because of the cosmic horizon There is no obvious observable evidence for this. It takes some additional assumptions and deductions to be able to state a cosmic horizon exists.
>and redshifting of light that is further away. That was already stated in the OP: >look again with a really long exposure time >the dark spots are no longer dark
Don't call the board sad when you have no reading comprehension.
Leo Price
Photons don't exist. Light doesn't travel at a speed. Light has a rate of induction as it is a coaxial longitudinal circuit.
Yet again you fail to show any reading comprehension. >It takes some additional assumptions and deductions to be able to state a cosmic horizon exists. Like for example the speed of light being a constant or the outward expansion of the universe.
Also, the first paragraph of that link shows that the Hubble horizon has no relation to the discussion in this thread: >Note that this does not mean the particle is unobservable, the light from the past is reaching and will continue to reach the observer for a while. If the light is still able to reach us, how does this apply to Olber's paradox at all?
Daniel Evans
Now you're just flat out denying science. The universe is expanding. That is observable. The speed of light is constant.
Once objects go beyond the hubble horizon their light can't reach us.