Tag: TON 618

Quasar TON 618

This is a submission for Kevin’s No Theme Thursday

Image by Kevin from The Beginning at Last

Kevin’s artistic picture above reminds me of a Quasar, a supermassive black hole emitting enormous amounts of energy.

What is a Quasar ?

A Quasar is a supermassive black hole at the center of a galaxy that is emitting enormous amounts of energy. The quasar is the supermassive black hole plus its accretion disk, the gas it is feeding on and the radiation it emits. The quasar is actively feeding on gas and stars and emitting enormous amounts of radiation in the process. The radiant energy of quasars is enormous; the most powerful quasars have luminosities thousands of times greater than that of a galaxy such as the Milky Way, and millions of times greater than the largest and most luminous stars in the known universe.

Supermassive black hole at the center of a quasar. Singularity in space devouring matter and light. From Shutterstock Asset id: 2484018599 by Nazarii Neshcherenskyi.

TON 618

TON 618 is a hyper luminous Quasar known to house one of the most massive black holes ever discovered, with an estimated mass of around 40 to 60 billion solar masses. Its luminosity is estimated to be 140 trillion times that of the Sun. The diameter of TON 618 is 780 billion kilometers or 82.6 light-years. Keep in mind that the distance to the moon is 1.3 light seconds and 82.6 light years is more than two billion times larger than that. Our sun is gigantic with a diameter 109 times larger than the diameter of earth. 1.3 million earths could fit inside the volume of our sun. However, in comparison to TON 618, our sun is a lot less than tiny. The diameter of TON 618 is 561 million times larger than that of the sun’s diameter and 177 octillion (an octillion is 27 zeros) suns could fit inside the volume of TON 618. In other words, we are comparing a dust particle to planet earth size wise. I am pretty sure you are not going to be able to imagine this.

Quasar in deep space. Elements of this image furnished by NASA. Asset id: 1758938918. by NASA images.

When TON 618 was discovered in 1957, quasars and supermassive black holes were not yet recognized and understood by astronomers. The word quasar inspired shock and awe in every nerd on the planet. The concept of quasars, or quasi-stellar radio sources, wasn’t fully recognized until 1963. When I was a kid in the 1970’s there was a lot of speculation as to what these gigantic ultra bright but far away objects could be. TON 618 is located 18.2 billion light years away. Considering that the reachable limit of the Universe is 16.5 billion light years even if you travel at the speed of light, you could never travel to TON 618 (barring the warp drive in Star Trek).

The Event Horizon

When we are talking about the diameter of a black hole we are not talking about a sphere with a solid surface. The black hole is a sphere, or an oval, wherein gravity is so strong that nothing can escape, not light, not anything. It’s truly black. As you approach the event horizon you become invisible, space deforms, and from the perspective of an outside observer, time appears to stop for someone reaching the event horizon of a black hole. Time will continue for someone falling in, well in some sense. You’ll be transported beyond our universe and time as we know it. We can guess but we can’t really know.

When this spaceship reaches the event horizon the time will stop from our perspective, and they will never enter the black hole. From their perspective they will enter right through the event horizon, and they will be transported infinitely far into a future beyond time. Stock AI-generated image ID: 2448481683 AI-generated image Contributor Shutterstock AI Generator.

Black Holes

Black holes are invisible. They are truly black. However, we can see them if they are consuming matter. The matter close to black holes will heat up and glow. The closer to the event horizon the redder it is. It is called an accretion disk as in the depiction above. There are an estimated 100 million black holes in our galaxy, the Milky Way. At the center of the Milky Way is a super massive black hole called Sagittarius A-star. It is 4 million times more massive than our sun. There are supermassive black holes located at the center of most large galaxies. The supermassive black holes are considered to play a crucial role in the formation of galaxies.

3D illustration of giant Black hole in deep space. High quality digital space art in 5K – realistic visualization. Stock Illustration ID: 2476711459 by Vadim Sadovski.

Black Hole Animation

Below is an animation created by NASA that depicts what an observer falling into a black hole would see. The video is about 4 minutes long.

TON 618  Animation

Below is an animation of TON 618, a quasar and the largest black hole known in the universe. This video is about 5 minutes.

To see my The Bizarre Reality of Black Holes Super Fact Click Here
To see the Super Facts click here

Note : Today March 14 is Albert Einstein’s birthday, the man who gave us the General Theory of Relativity, which mathematically describes black holes. It is also Pi Day (first 10 digits 3.1415926535), and there’s a rare moon eclipse tonight called a blood moon or a worm moon. Also, Dallas is under a fire warning. Be careful.

Important Note : I am going on a ski vacation tomorrow and I will take a one-week break from blogging as well as a break from reading other people’s blogs.

The Bizarre Reality of Black Holes

3D illustration of giant Black hole in deep space. High quality digital space art in 5K – realistic visualization. Stock Illustration ID: 2476711459 by Vadim Sadovski.

Superfact 15: A black hole is a region of spacetime wherein gravity is so strong that nothing can escape it, not light, not anything. There are different kinds of black holes. We don’t fully understand black holes, which makes them very interesting to science. The boundary of no escape is called the event horizon.  Black holes are invisible. They are truly black. However, we can see what they do to their environment as they consume surrounding matter. Below are some bizarre facts about black holes.

  • Time runs much slower closer to a black hole.
  • An object falling towards a black hole will become redder, faint, then infrared, then invisible and all its movements and clocks will freeze.
  • From the perspective of an outside observer, time appears to stop for someone reaching the event horizon of a black hole. Time will continue for someone falling in.
  • At the center of a black hole may lie a gravitational singularity, a region where the spacetime curvature becomes infinite. However, since we cannot peer into a black hole we cannot know.
  • The largest known black hole (TON 618) is more than 287 million times more massive than the most massive known star (R136a1).
  • If our planet earth collapsed into a black hole, it’s diameter would  be 1.75 centimeters or 0.69 inches in diameter. The diameter of the largest known black hole (TON 618) is 242 billion miles, which is more than one million times larger than the distance from the earth to moon.
  • There are supermassive black holes located at the center of most large galaxies, including our Milky Way. The Milky Way’s black hole is about 4 million times the mass of the Sun.
  • Astronomers estimate that there are around 100 million black holes in our Milky Way.
  • When an object (maybe a spaceship, or a person) approaches or falls into a black hole the difference between the gravity on the parts closer to the black hole and those further away will be so large that the object is stretched and ripped apart. This is called spaghettification.
  • Stretching from the event horizon and out another half radius of the black hole is a region called the photon sphere. In the photon sphere light will travel in a non-stable circular orbit around the black hole. Light will go around and around for a while. If you are in the photon sphere you might be able to see the back of your head.
  • Above is just a small sample of weird black hole facts.
The understanding of black holes requires the General Theory of Relativity, and it is still a lot we don’t understand about them. Stock Photo ID: 2024419973 by Elena11

The Bizarre Reality of Black Holes

I chose the Bizarre Reality of Black Holes as a super-fact and included the ten facts above because these facts are shocking and yet not well known. Below is a photograph of a supermassive black hole at the center of the galaxy M87 taken by the event horizon telescope in 2017. To create the picture below image processing was needed. It is the first photograph of a black hole. This supermassive black hole is an estimated 6.5 billion times as massive as our sun, and 28 million times as massive as the largest known star.

The photo of the supermassive black hole at the center of the galaxy M87 taken by the event horizon telescope in 2017. Uploader cropped and converted TIF to JPG – This file has been extracted from another file, CC BY 4.0, https://commons.wikimedia.org/w/index.php?curid=77925953.

Below is an animation created by NASA that depicts what an observer falling into a black hole would see.

The fact that from the perspective of an outside observer, time appears to stop for someone reaching the event horizon of a black hole seems to prevent anything from falling into a black hole from an outside perspective. How does anything ever get inside the black hole if it freezes up at the event horizon? Black holes grow, they collide and merge, so clearly things can get inside, right? But how? As I tried to find the answer to this question, I found that I was far from the only one asking this question.

Realistic spaceship approaching a black hole. This content was generated by an Artificial Intelligence (AI) system. Stock AI-generated image ID: 2448481683 AI-generated image Contributor Shutterstock AI Generator.

I searched physics forums trying to find the answer to this question. There were a lot of discussions but no clear answers. Some said, nothing falls into a black hole. Everything accumulates on the event horizon from the outside perspective and that’s how the event horizon and the black hole grows. The observer crossing the horizon essentially jumps infinitely far into the future, or into a different universe, that’s how he can pass through the event horizon.

Others said that the black hole is not static, it grows, and it shrinks from Hawking radiation, and this complicates the equations so that objects can enter the black hole even from an outside perspective. I have a few physics books on black holes that I have not finished reading. If I learn something better, I will update this post.

AI-generated image Description : Space Black Hole Blue Illustration Gravity Geometry Vast Line. Stock AI-generated image ID: 2457551367 by AI-generated image Contributor Shutterstock.AI

In the image above the grid demonstrates how a black hole is distorting space-time. Other strange facts about black holes are that they are slowly evaporating through what is called Hawking radiation.

They come in different sizes. The smallest known black hole (XTE J1650-500) has a diameter of approximately 15 miles. Perhaps scariest of all, black holes are nearly undetectable unless they are feeding on star dust or tugging on nearby stars. That means one hungry black hole could be zipping right through our solar system without us knowing. Considering there are an estimated 100 million black holes in our Milky Way space travel might be scary.

Addressing a Good Question

After posting this post I received a question via email regarding this fact “If our planet earth collapsed into a black hole, its diameter would  be 1.75 centimeters or 0.69 inches in diameter. The diameter of the largest known black hole (TON 618) is 242 billion miles, which is more than one million times larger than the distance from the earth to moon.” The person who asked thought that 1.75 centimeters was pretty tiny and was wondering how a black hole could be that small.

To create a black hole, you need extremely strong gravity and one way to increase the force of gravity at the surface of a planet is to compress all its mass into a smaller volume.

If you compressed all of earth’s gravity so its diameter was only half of what it is, it would be more compact, and the gravity would be four times stronger at earth’s surface. If you compressed it further so that the earth’s diameter would only be a fourth of its original diameter the gravity at the surface would now be 16 times stronger. If you keep compressing the earth until its diameter is only 1.75 centimeters the force of gravity at the surface would be 132,000 trillion times greater than it currently is according to Newtonian physics, and you would get a black hole.

I should say that it comes out differently with General Relativity and that number is different for different sized black holes. However, this calculation is for demonstrative purposes. For relatively small masses like a planet, you would have to compress so much that it becomes tiny before gravity becomes large enough to make a black hole.

To see the other Super Facts click here

If you were an astronaut on an interstellar journey, would you be afraid of falling into a black hole?