There exists a small
galaxy in the universe containing seven worlds, shimmering in seven colors... These worlds exist and act independent of one another.
Not exact matches
But «logic» this; Of a God that created a
universe that is about 12 billon years old
in extension, with millions of
galaxies like ours,
containing billions of stars and planets.
And then, having created this
universe of over 100 billion
galaxies containing a trillion trillion stars he decides to focus his attention on one planet where he creates life «
in his image» as if such a being would even have an image.
For example, the seeming unlimited number of
galaxies (with each
containing anywhere from an estimated 10 to 500 billion stars) and the precise order that exists within the
universe, and the shear distance between stars (an average about 4.2 light years or about 25 trillion miles), has caused some to stop and look
in awe.
You'll almost certainly dodge that question by claiming he has always existed, so if that's the case, what suddenly prompted God to create a
universe filled with over 100 billion
galaxies containing a trillion trillion stars after spending an eternity extending into the past existing alone
in an absolute void of nothingness?
It means that the earth on which we live is not the center of the physical
universe, but a comparatively small planet revolving round a very average - sized star, which
in turn is but one of a hundred thousand million others forming the
galaxy we call the Milky Way, and that part of the
universe that our existing telescopes have so far penetrated
contains about a hundred million star systems or nebulae, similar to our
galaxy.
Decades earlier, cosmologists looking at Einstein's equations determined three possible destinies lying
in wait for the
universe, depending on how much stuff —
galaxies, stars, humans — it
contained.
Telescopes
in the U.S. West opened astronomers» eyes to a vast, expanding
universe containing countless
galaxies.
About 500 million years after the Big Bang, one of the first
galaxies in the
universe formed,
containing stars of about the same mass as the sun — which can live for 10 billion years — as well as lighter stars.
The Milky Way is just one of a trillion
galaxies in the observable
universe and
contains just as many stars.
The decreasing number of
galaxies as time progresses also contributes to the solution for Olbers» paradox (first formulated
in the early 1800s by German astronomer Heinrich Wilhelm Olbers): Why is the sky dark at night if the
universe contains an infinity of stars?
The study led by Donahue looked at far - ultraviolet light from a variety of massive elliptical
galaxies found
in the Cluster Lensing And Supernova Survey with Hubble (CLASH), which
contains elliptical
galaxies in the distant
universe.
Galaxy clusters are the most massive objects
in the
universe,
containing hundreds to thousands of
galaxies, bound together by gravity.
In a 2013 observational study, University of Wisconsin - Madison astronomer Amy Barger and her then - student Ryan Keenan showed that our galaxy, in the context of the large - scale structure of the universe, resides in an enormous void — a region of space containing far fewer galaxies, stars and planets than expecte
In a 2013 observational study, University of Wisconsin - Madison astronomer Amy Barger and her then - student Ryan Keenan showed that our
galaxy,
in the context of the large - scale structure of the universe, resides in an enormous void — a region of space containing far fewer galaxies, stars and planets than expecte
in the context of the large - scale structure of the
universe, resides
in an enormous void — a region of space containing far fewer galaxies, stars and planets than expecte
in an enormous void — a region of space
containing far fewer
galaxies, stars and planets than expected.
These
galaxies, the smallest
in the
universe,
contain only a few hundred or a few thousand stars (compared with 100 billion stars
in the Milky Way).
Similar islands of material
in the early
universe could have held as much water vapor as we find
in our
galaxy today, despite
containing a thousand times less oxygen.
Most
galaxies in the observable
universe contain a supermassive black hole at their center, one that is either active and surrounded by an accretion disk of dust, gas and other debris, or is dormant — lurking at the center, patiently awaiting its next meal.
Others theorize that the early
universe broke first into colossal clumps that
contained enough building materials to make structures on the grandest scale — great walls and sheets of millions of
galaxies — that fragmented into increasingly smaller gas and clouds, ultimately resulting
in individual
galaxies.
The resulting explosions are the brightest events
in the
universe and vastly outshine entire
galaxies containing hundreds of billions of stars.
Galaxy clusters are commonly observed
in the present - day
universe and
contain some of the oldest and most massive
galaxies known.