SCIENCES have discovered several strange objects near the super massive black hole in the heart of our Melkweg galaxy.
The mysterious structures, placed behind a galactic dust scale, can withstand the powerful gravitational drag of
Together with two former celestial objects discovered a decade ago, the discovery of the G3, G4 and G5 (as they were b a-marked) was discovered gives rise to black hole visitors to five.
Astronomer revealed that the group of objects resembles gas clouds but appears like stars and leaves the boobs confused.
They hang around Sagittarius A * (pronounced Sagittarius A star): The super massive black hole in our Milky Way galaxy's heart, which can cut gas clouds apart (ruling that theory).
All these G objects are bright, red, dusty structures that emit hydrogen and gave a relatively low surface temperature.
"These compact dusty rods are extremely fast and close to Galaxy's super-massive black holes. It's fascinating to see them move from year to year," said astronomer Anna Ciurlo, who led the team who made the discovery.
"How did they get there? And what will they be? They must have an interesting story to tell."
What is a black hole?
Black holes are mysterious and scary – and we have a simple guide to how they work …
- A black hole is an area in space where absolutely nothing can fly.
- It's because they have extremely strong gravitational effects, which means that when something goes into a black hole, it can not come back.
- They are named because there is no light that can not fly when sucked in. That's why a black hole is completely dark.
- Most black holes are made when a super god star dies.
- This happens when the stars go out of fuel – like hydrogen – to burn, causing the star to collapse.
- When this happens, gravity pulls the center of the star inward quickly and collapses into a small ball.
- It expands and contracts to a final collapse, causing some of the star to collapse inwardly due to gravity and the rest of the star to explode outward.  The remaining central ball is extremely dense, and if it is especially dense, you get a black hole.
- We certainly do not know what happens when you enter a black hole. A popular theory is that the objects are stretched and lose all dimensional form before they completely disappear. So do not try it.
The five Gs origins can be the result of a collision between two stars intersecting each other, scientists claim.
The black hole in their vicinity changes the gravity of the surrounding space, galactic arrows-ups as this is done as much as possible.
For a long time, this gravitational force changes the paths of the binary stars – which are two star systems where one rotates around another – until the duo crashes into each other.
The effect of this collision releases a large amount of energy, which causes the stars to blow up to a much larger size and appear as gas clouds.
The researchers made their discovery of 12-year measurements of the black hole gas dynamics taken from the WM Keck Observatory in Hawaii.
They are now planning to follow the size and shape of the G objects paths to gain insight into how they were formed.
But it can take at least 20 years for G3 and even longer for G4 and G5.
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"Understanding G Objects Can Learn About Galactic Centers Fascinating and Mystical Environment. Many things that happen, each localized process can help explain how this extreme exotic environment works, "says Ciurlo.
The latest unpublished results were published this week at the American Astronomical Society in Denver, Colorado.
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