Sentences with phrase «galaxies which»
This is further extrapolated within the five galaxies which are all very different from each other, but each level within them is very similar, and can get quite repetitive and boring to look at.
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You are very limited with turns in exploring the galaxies which can become frustrating when you are low on resources and $ tarch, especially when you know you are about to come across a boss level.
Astronomers have found black holes at the centers of other galaxies which have masses up to billions of times the mass of our sun.
One would generally expect most FRBs to come from large galaxies which have the largest numbers of stars and neutron stars — remnants of massive stars.»
Ironically the papers which cite some of our Galaxy Zoo papers where we demonstrate there are galaxies which are not in the normal correlation between colour and morphology may also be good starting points (some citations to these are along the lines of saying things like: «most galaxies fall into blue = spiral; red = elliptical, a few don't (cite Galaxy Zoo here), but we're going to use this definition anyway».
And spectra can also be used to find galaxies which are not forming stars, so spectral type and colour are highly related.
With the ALMA telescope, the research team observed the «Subaru / XMM - Newton Deep Survey Field» in the direction of the constellation Cetus, and succeeded in identifying 15 extremely dark galaxies which had been previously unknown.
That is, radio galaxies which we can resolve in our observations come in two principal flavours: 1) FRI — type; and 2) FRII - type — named after two scientists who introduced this classification back in 1974, Berney Fanaroff and Julia Riley [link to paper].
This group has never been properly studied and so this list only contains the galaxies which are the most probable members.
A galactic bulge is thought to evolve through numerous mergers and collisions with other galaxies which would bring a large amount of interstellar materials (* 2) into a galactic center and further the evolution of a black hole.
The gravitational pull of the Virgo cluster has stretched this collection of groups into a long chain of galaxies which extends across 40 million light years of space.
NGC 3430 (centre) is another of the bright spiral galaxies which can be found in this region.
Gillian Wilson, professor of physics and astronomy at UC Riverside, added, «Fascinatingly, however, the study found that the percentage of galaxies which had stopped forming stars in those young, distant clusters, was much lower than the percentage found in much older, nearby clusters.
The Virgo cluster is a massive cluster of galaxies which dominates the Virgo supercluster.
While it had been fully expected that the percentage of cluster galaxies which had stopped forming stars would increase as the Universe aged, this latest work quantifies the effect.»
In theory, very distant (and therefore young) galaxies should have weaker magnetic fields than galaxies which are around today.
There aren't any monstrous galaxies left in the modern Universe, but astronomers believe that these young galaxies matured into giant elliptical galaxies which are seen in the modern Universe.
This marks the edge of the Local Supercluster, the gathering of galaxies which includes our own galaxy, the Milky Way.
Initially, Schmidt and his colleagues applied their technique only to supernovae that occurred in galaxies which are relatively close to our own.
The Lancaster team used the Subaru and Keck telescopes on Hawaii, and the Very Large Telescope in Chile to discover several galaxies which seem to have large bubbles of ionised gas around them, allowing light to pass through.
The team managed to combine the data by using background galaxies which did not change position in the 12 years.
but in reality we are a very tiny planet in a sea of billions of galaxies which each galaxy has billions of stars and planets.
We can see this by looking into space at the 100s of billions of galaxies which allow us to see back in time.
If we have light which reaches us from a galaxy which is almost the age of the universe, let's say 13.3 billion years old, how did we get that far from that galaxy?
With all our knowledge, big brains, university degrees and amazing (to us) technology, consider than we dwell on a damp little planet, in an ordinary solar system, in the boonies of a very ordinary spiral galaxy which is composed of billions of stars, millions of which are much, much larger than our sun.
A long time ago, in a football galaxy which seems far far away, the close season was a chasm that never seemed to end.
Planetary scientists have calculated that there are hundreds of billions of Earth - like planets in our galaxy which might support life.
NGC 4845 (right) is a spiral galaxy which is also in the NGC 4753 group.
This star - forming region of ionised hydrogen gas is in the Large Magellanic Cloud, a small galaxy which neighbours the Milky Way.
NGC 3227 (left) is a famous spiral galaxy which is colliding with NGC 3226 - a small elliptical galaxy above it.
For the development and verification of a new method, it would be better to select a nearby galaxy which can be spatially resolved and examined in detail compared to a distant galaxy whose properties are largely unknown.
IC 1574 (right) is an irregular dwarf galaxy which is also at the back of this group.
NGC 45 (centre) is another small spiral galaxy which may lie behind the group.
ESO 407 - 18 (left) is an irregular dwarf galaxy which like NGC 55 is at the front of the Sculptor Group about 6 or 7 million light years from us.
NGC 5068 (left) is a small spiral galaxy which lies about 20 degrees to the north of the centre of the group.
NGC 1569 (centre) is only a dwarf galaxy but it is probably the nearest example of a starburst galaxy - a galaxy which is rapidly forming a lot of new stars.
It is a very obscured galaxy which lies twenty degrees to the south of the group on the other side of the Milky Way.
ESO 97 - 13 (centre) is a spiral galaxy which is better known as the Circinus Galaxy.
Okay, in all seriousness, here's what we really wan na see, although leaving out the Marvel trio of CAPTAIN AMERICA: THE WINTER SOLDIER, THOR: THE DARK WORLD, and GUARDIANS OF THE GALAXY which are surely a given, and of course the return on Marc Webb's THE AMAZING SPIDER - MAN 2...
Not exact matches
«There are about 100 billion neurons in a human brain, which is about the same as the number of stars in the Milky Way galaxy.»
The scientists found a desolate chunk of space surrounding the center of our galaxy that is devoid of young stars, which contradicts recent work done on the region.
Everything the spacecraft has observed and catalogued so far will eventually help build a detailed 3D map of our galaxy, which will give us a new understanding of its structure and evolution.
I can't claim to be providing certainly accurate information on this, since it's been a while since I've done relevant physics reading (lay books, not academic), but in the early universe (before inflation went out of control) there were irregularities that gave rise to clumping, from which the first stars and galaxies originated.
I am blogging off of my galaxy note two which despite its size is still snug for these thumbs so excuse the grammar
Many of the 2012 predictions can be traced back to the mysterious end of the ancient Mayan calendar, which measured time in vast cycles, based on Earth's position within our galaxy and our galaxy's movement through the cosmos.
Why would it even be concerned with the earth, much less the entire galaxy in which we reside?
Why are there billions of galaxies inhabiting the known universe and within those billions of stars all of which are being born and dying.
Oh, so in the vast known Universe, which reaches out for 15 BILLION light years in all directions, with over 100 BILLION galaxies, containing an average of 100 BILLION stars each, with most of those stars now thought to have multiple planets orbiting around them, you can't imagine that there would be at least ONE little planet SOMEWHERE with the right conditions for life without divine intervention?
those stars you see, the light takes hundreds of thousands of years to reach us, and when you see that light from them, you are seeing what they looked like thousands of years ago when that group of photons was thrust out by that star / galaxy, which than takes several light years to reach us, which also means you are looking at the past, thousands and hundreds of thousand of years into the past!
To the contrary, it is more fantastic than we can imagine — hundreds of billions (trillions) of galaxies with hundreds of billions (trillions) of stars, nearly all of which have planets, some right for life; planets so hot that they rain glass; stars made of diamonds; the lineage of animals from singled celled organisms to the incredible variety that exists today with their unique adaptations.