It is a galaxy that eats the galaxy universe, where small galaxies collide and merge to form the large galaxies we see today. It is well known that our spiral-shaped spiral galaxies reach their majestic size in this way, engulfing the smaller galaxies floating in the surrounding communities, and thus becoming larger and larger. The relics of these horrific festivals can still be observed in the form of a star stream, the tragic remains of the dwarf galaxies that the galaxy swallowed long ago. Indeed, a group of irregular dwarf galaxies, ie from
Big from
with from
Small Magellanic Cloud, from
When they fall into our own galaxy, they are merging into a larger galaxy. In August 2018, an astronomer team announced their new discovery that the two Milky Way dwarves contained enough gas to supplement the supply of 50% of the stellar labor in our galaxy - thus providing seeds for the future.
This new study was published in from
Royal Astronomical Society Monthly from
[UK], which reveals how large galaxies like ours can easily capture this gas by gravity. Scientists simulated the collision of two distant dwarf galaxies to see how their gases dispersed during the merger process. In their simulation, they watched larger galaxies, from
NGC 4490 from
Gases are stolen from their smaller siblings due to their gravitational effects due to differences in size. As the circle of the duo gets closer from
Close from
In this extraordinary celestial ballet, the gas tail of the small galaxy is getting farther and farther and farther and farther. from
farther from
far. This finding supports a study published earlier in 2018 that successfully pointed out gas flow. from
Magellan Cloud from
Enter the associated Milky Way from
Small Magellanic Cloud.
Story of two galaxy dwarfs
The from
Magellan Cloud from
It is a pair of nearby, small and irregular satellite galaxies in orbit around us - they are also the brightest small Milky Way satellites in our galaxy. In a long ribbon, the airless double bubble cloud gas is properly called before and after them. from
Magellan flows. from
The from
Magellan Flow from
It was a long stream of light that almost reached half of our Milky Way and showed a sly dance on the edge of our Milky Way. Most of the ribbons were ripped off. from
Small Magellanic Cloud [SMC] from
About 2 billion years ago, but recently a small piece of natural gas was formed from natural gas associated with natural gas. from
Large Magellanic Cloud [LMC].
The from
LMC from
with from
SMC from
When the explorer Ferdinand Magellan [1480-1521] mistaken them for the cloud, they got their name - this is the name of the so-called "cloud".
The from
LMC from
Only about 158,200 light years from Earth from
SMC from
No more than approximately 199,000 light years. In contrast, our entire Milky Way is about 100,000 light-years away, about 3 million light-years away. from
Andromeda Galaxy [M31] from
This is another big spiral, and the most recent from
Big from
The Milky Way neighbors of the Milky Way.
More than 20 small satellite galaxies orbit around our own, but only one from
Magellan Cloud from
Shining bright light, the brilliant starlight can observe our planet with the naked eye. The from
Magellan Cloud from
- Contrast with other orbiting satellites in our Milky Way - full of gas. Natural gas is a valuable substance used by galaxies to make bright new Mars babies.
Several ancient cultures are aware of the existence of this culture. from
Magellan Cloud. from
Perhaps the oldest continuous existing "cloud" duo was proposed by observers of the Khoisan culture in southern Africa. For thousands of years, the ancestors of these people have clearly lived separately from all other human cultures of life.
Another long history of cultural associations may have reappeared, with humans moving from the middle and southeast to Australia, about 50 to 60,000 years ago. These ancient migratory people are ancient people of modern aborigines, and various cultures produce a variety of fascinating myths and folktales about the galaxies near the starlight.
Ancient Polynesians also know this existence from
Magellan Cloud from
They are important navigation aids. In short, they are also called by Maori in New Zealand. from
Nga Patori-Kaihau from
Or as from
Te Reporepo from
. Ancient Maori believed that these two "clouds" were predictors of wind.
The from
Magellan Cloud from
It has been known since the first millennium of West Asia. First mentioned from
LMC from
Written by Muslim scholar Ibn Qutaybah from
Al-Anwan [the moon station in the former Islamic Arab culture].
The ancient Sri Lankan people mentioned from
cloud from
As from
Maha Mera Paruwathaya [Dashan] from
. This is because they think they look like the peaks of a distant mountain range.
in Europe, from
cloud from
It was first reported by the 16th century Italian writers Peter Martiel Angela and Andrea Corsari, both of which came from observations of the Portuguese navigation. Subsequently, Antonio Pigafetta reported that he was an expedition member of the expedition Ferdinand Magellan on the expedition to the round-the-world voyage [1519-1522].
The from
LMC from
Like its siblings from
SMC from
In the southern hemisphere of our planet are conspicuous objects. The "cloud" duo looks like the eyes of our Milky Way separated from the naked eye to the human eye, and the real distance between them is about 75,000 light years. Until found from
Sagittarius dwarf elliptical galaxy from
In 1994, the pair was the closest known galaxies of our own. However, in 2003, from
Canis Major Dwarf Galaxy from
It is found to be closer to our Milky Way and is currently considered to be our nearest Milky Way neighbor. Total quality of the duo from
cloud from
uncertain.
Many astronomers have raised this issue for some time. from
Magellan Cloud from
Our Galaxy has been flying around their current distance for a long time. However, there is now new evidence that the two groups are rarely as close to the Milky Way as they are now. Both observations and theories show that as they get closer and closer, the tidal interactions between the two men and our larger Milky Way are significantly distorted. The from
LMC from
In the image of the radio telescope of neutral hydrogen, a very clear and elegant spiral structure is shown. A ribbon of neutral hydrogen connects them to our Milky Way and to each other. The two members of the two seem to be banned from spiral galaxies. Their gravitation also affects our Milky Way, which distinguishes the outer limits of the Milky Way disk.
In addition to their different structure and smaller quality, this pair from
cloud from
There are two important aspects to our Galaxy. First, they are more metal-poor than our Milky Way [in astronomy, "metal" is any atomic element that is heavier than 氦]. Second, they are full of gas; their mass percentages are hydrogen and helium compared to our Milky Way. Both members showed the nebula and young stars. However, from
like from
Our own Milky Way, their stars range in age from stellar babies to older stars. This shows that long stars form a history.
The original birth of the galaxy
The universe was born and expanded by the Big Bang index about 13.8 billion years ago. Many scientific cosmologists believe that it originates from a very small spot, smaller than a proton, and only reaches a macroscopic size in a minimum of one second. Since then, it has been expanding at a slower rate - and it has been cooling. The original universe is smaller and crowded than it is now. Original from
Original galaxy from
When our universe is young, we are closer. For this reason, ancient galaxies have a greater chance of colliding with each other and merging into larger and larger galaxies.
First of all from
Original galaxy from
It may have been born in less than a billion years of the universe. The most widely accepted model of the Milky Way formation suggests that majestic large galaxies are not common in the ancient universe and reach their large size after they capture smaller galaxies and then merge them.
The starry galaxy of the universe switches at the end of the so-called galaxy from
Dark age of the universe from
It used to be a dark and uncharacteristic unimaginable darkness. The first glowing object bought from
Dark age of the universe from
It ended when they sent the new light to space time.
Most scientific cosmologists believe that the first galaxy born in the ancient universe is opaque, dark, invisible clouds, mainly composed of hydrogen. These primitive clouds quietly and slowly gather in the secret hidden heart. from
Dark matter halo from
. These newborns from
Original cloud from
Mainly composed of raw hydrogen, gravity attracts the first generation of brilliant, huge baby stars. Bright neonatal stars and extremely hot gases light up the ancient universe.
The from
Dark matter from
It is a mysterious form of matter - it is not made up of the "ordinary" atomic matter we are familiar with. Indeed, from
Dark matter from
It is transparent and invisible because it does not dance with light or any other form of electromagnetic radiation. Many scientists think it does exist from
There from
Because it does exert a gravitational effect on objects that can be seen.
Star birth
After a long time from
NGC 4490 from
Colliding with their smaller brothers and sisters from
SN 4485 from
And merge with it to create a single galaxy, and their natural gas continues to expand. Astronomers conducting this new study found...
Orignal From: This is a galaxy eating the Milky Way universe
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