Quasar from
Explore the wonderful light in the ancient universe, and greet the curiosity among us with distant, mysterious, brilliant dances between distant stars. from
Quasar from
, or from
Quasi-stellar wireless power supply from
Is very bright from
Active galactic nuclei [AGN] from
Galaxy in the distance - distant - from
Accretion disk from
Surround from
Supermassive black hole from
Hidden in the darkness of every big galaxy in the universe - including our own Milky Way. As a luminescent gas from
Accretion disk from
Spiral down to the hungry black hole waiting for the belly to release a lot of energy in the form of electromagnetic radiation - creating a bright light from
Quasar. from
In July 2018, an astronomer team announced that they had discovered the remote control. from
Quasar from
It shows the most brilliant radio emissions observed in the ancient universe, due to the extremely fast material jets of black holes that make a sharp sound to the space. These discoveries will enable astronomers to better explore the well-preserved secrets of the universe's youth, an important era of transition from now to the present.
Dr. Eduardo Barnados from
Carnegie Observatory from
[Pasadena, California] led the team to discover the glory from
Quasar from
This initial discovery was followed by Dr. Emmanuel Momjian. from
National Radio Astronomy Observatory [NRAO] from
. These new observations enable astronomers to see brilliant jets without any detail. from
Quasar from
This was formed within the first billion years of our 14 billion year old universe. The from
NRAO from
In Charlottesville, Virginia.
Quasar from
composed of from
Supermassive black hole from
It is millions to billions of times higher than our solar mass. Newly discovered from
Quasar from
, the name of the phone book from
PSO J352.4034-15.3373 from
Is one of the rare dark heart varieties. These unusual beasts that inhabit the celestial zoo not only devour their material in the process of consumption, but also emit a plasma jet that is close to the speed of light. This relativistic material jet is very bright at the frequencies detected by radio telescopes. Even from
Quasar from
Half a century ago, as a result of its powerful radio launch, astronomers now know that only about 10% of them are powerful radio transmitters.
Brilliant lighthouse perched in time and space
Q Uasars from
Shooting wonderful from
stripe from
Light enters the universe, and this escape is like radiance from
trillion from
star. Indeed, from
Quasar from
From their smaller regions than our solar system, they send their fabulous fierce light to interstellar space. When they were discovered, these brilliant beacons were considered to be linear stellar objects, located in the dazzling heart of ancient galaxies in the distant universe. In astronomy, it was a long time ago. The farther an object is in space, the older it is in time. This is due to the expansion of the universe - hence the word from
Time and space. from
Time is the fourth dimension - it is impossible to find an object in space, not to locate it in time. No known signal can travel faster than light in a vacuum, and long time ago, distant objects living in the universe emit incredible light for long trips - so we see them like They are the same from
Yes from
When they first shot the dazzling light into the space between the galaxies.
Today, astrophysicists understand this. from
Supermassive black hole from
Living in the heart of the galaxy is the real "engine" from
Quasar. from
Although they misled the name, from
Black hole from
Not just empty space. In fact, they are really substances that are squashed in a very small area - and they are not just one size. from
Stellar mass black hole from
Born from the wreckage left by giant stars, these stars were killed in a supernova explosion. Huge stars reach their destination from
Nuclear fusion from
"Life" after burning the necessary fuel. As its outer gas layer violently enters the space between the stars, the core of the massive star destined to die collapses - leaving only one from
Black hole from
Behind the quality of the stars is the legacy of the universe.
Supermassive black hole from
Beasts are different from their smaller stellar quality relatives. This is mainly because of the great quality of these gravitational forces. from
Oversized from
monster. The question that still needs to be answered is how these extremely large entities first existed. There is also evidence from
Intermediate quality black hole from
Lurking in the universe, the mass of their movement exceeds their star quality "cousin", but close to from
Oversized from
Beast lurking in the dark hearts of large galaxies.
Our Milky Way Galaxy from
Supermassive black hole from
Called from
Sagittarius A * - Sgr A * from
, abbreviation from
SAJ-A-Star]. Sgr A * from
Not as big as many other similar ones, and "only" millions - not billions - the quality of the sun.
Quasar from
The distant dark minds that plague the young, extremely active galaxies of the ancient universe - the energy they throw into space is thousands of times the energy produced by our entire Milky Way. The radiation is emitted almost uniformly throughout the electromagnetic spectrum, extending from the far infrared to the X-rays, exhibiting a peak in the ultraviolet optical band. Some from
Quasar from
It is a powerful wireless power source, as well as a gamma ray source.
It seems that the larger the host galaxies, the better its quality. from
Supermassive black hole from
. For this reason, it has been repeatedly suggested that there must be some mechanisms to link the formation of the host galaxies with the formation of their inhabitants. from
Oversized dark heart - from
vice versa. This theory is of great significance to various theories of the formation and evolution of the Milky Way, and it is the ongoing research path of astrophysicists.
Quasar from
It was first identified as a radio wave source of unknown physical origin in the 1950s. When from
Quasar from
They were initially detected in photographic images of early times similar to dim star-shaped spots. Recent high resolution image from
Quasar from
Especially those obtained from it from
Hubble Space Telescope [HST] from
Has been revealed from
Quasar from
Located at the heart of the galaxy, as well as some galaxy galaxies from
Quasar from
Are strongly interacting or merging galaxies. Same as other types from
AGN from
Observed attribute from
Quasar from
Depends on many factors, including the quality of the residents from
Supermassive black hole from
, the rate of increase of gas, the direction around from
Accretion disk from
The degree of obscuration of gas and dust that is rotated within the host galaxies relative to the observer, and whether it exists from
Relativistic jet from
.
Quasar from
Activities are more common in the very ancient universe. Indeed, the peak era from
Quasar from
The activities in the universe occurred about 10 billion years ago.
the term from
"Quasar" from
It was created in May 1964 by Dr. Hong-Yee Chin, a Chinese-born astrophysicist born in China. Dr. Chin first used this term. from
Quasar from
In the journal from
Physics today from
Describe some mysterious astronomical objects.
Between 1917 and 1922, astronomers began to realize that there were objects in the universe according to the work of Heber Curtis, Ernst Opik and others. from
[nebula] from
This is actually a distant galaxies like our Milky Way. However, when radio astronomy began to be used in the 1950s, astronomers discovered a small number of unusual objects in the galaxy that showed unexplained properties.
Mysterious objects emit a large amount of radiation of innumerable frequencies, but no light source is located - or [in some cases] only point-like and very dim objects can be seen. These weak objects are like distant stars. The spectral lines of these strange objects, the chemical elements used to identify their composition, are also very unusual and unexplained. Some of them change their luminosity very quickly in the optical range, even faster in the X-ray range. This raises the upper limit of the size of these objects to astronomers, which does not exceed our own solar system. This is similar to high power density and considers arguing about these mysterious, distant "star" objects. They are described as from
"Quasi-stellar" - from
Meaning "star" wireless power - or that is from
"Quasi-stellar objects" [QSO] from
, a design has their unknown nature, this event has been shortened from
"Quasar".
Most from
Quasar from
The small telescope could not be observed. Although light and other radiation cannot escape strong gravitation from
Black hole in the event horizon from
Energy produced by one person from
Quasar from
Actually generated outside of from
Black hole from
. This energy is produced by gravity and immune friction in the most important materials. from
Black hole, from
Because it orbits the track and then spirals down - never returns. Dazzling brilliance from
Quasar from
Caused by from
Accretion disk from
Hovering, feeding black heart from
Oversized from
The beast waiting for its dinner - it can convert 6% to 32% of the mass of the object into energy. Even though there are dozens of galaxies in our general community of the Milky Way - and our Galaxy itself - there is no active center and there is no resemblance from
Quasar from
They are very quiet soon from
Supermassive black hole from
In the dark heart of their hiding. Therefore, it is now considered that all large galaxies have one from
Supermassive black hole from
In their from
Nucleus from
[central]. However, only a small portion becomes effective and power radiated in this way. This is an ancient event from
Supermassive black hole from
Is considered......
Orignal From: The quasars set off new light in the primitive universe.
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