The youngest galaxy is literally as far away from us as we can possibly imagine. This galaxy is almost as far from us as our sun is from earth. This galaxy is so far away that our entire solar system would be nothing but a dot on it.
It’s also impossible to see any of its stars because of the vast distances. This galaxy is so far away that its sun would be the star closest to our Milky Way spiral galaxy. This galaxy is so far away that its sun would be the sun closest to the center of our galaxy.
This galaxy is actually pretty close. The sun is a fairly small dot on this galaxy. The galaxy is so far away that we would be looking at the galaxy through a telescope. We would be looking through the telescope of an alien being.
This galaxy is actually pretty close. The galaxy is so far away that we would be looking at the galaxy through a telescope. We would be looking through the telescope of an alien being.
Even in the best case scenario, even if we were to travel a hundred light-years, it would still take us a century to get there. In reality, this game would take us only twenty-five years to travel.
This is a game of time. Time is a linear measure of distance. This is also a game of space. Space is a measure of distance in time. The galaxy is a measure of distance in space. And the universe is a measure of distance in both space and time.
There are a lot of galaxies out there. There are hundreds of billions of them, spread out across infinite space. At the same time, there are just a few thousand galaxies that we can actually see. But the universe is a lot bigger than that, and as time passes, new galaxies form out of the debris of old ones. This is a game of the vastness of the universe and that it’s still expanding.
So, there are hundreds of billions of galaxies, but the universe is also in just a few thousand galaxies? This is where the vastness of the universe and the fact that it’s expanding become a bit confusing. It’s hard for us to measure the universe’s size with any precision, so we can’t just compare it to the size of our universe.
If we were to try and measure it, we would be left with a pretty large universe. So how would we measure the universe? There are multiple ways to measure a universe, but none of them are very precise. You can measure the universe just by looking at the galaxies that make up it, but that would be pretty inaccurate. You can also simply look at the number of stars in a galaxy, but again, that would be pretty inaccurate.
If we were to use a more precise method, we wouldn’t be able to get to the exact point in the universe where everything was exactly the same. If we could measure the distance between every object in our universe, we can then use this scale to measure the universe size.