The Gaia telescope found the largest stellar black hole in the Milky Way.

"An international team has identified the heaviest black hole in our galaxy, with a mass 33 times that of the sun, using data from the Gaia spacecraft. (Artist’s concept.) Credit: SciTechDaily.com" (ScitechDaily, Einstein’s Legacy Proven Again With Monumental Black Hole Discovery)

The largest stellar known black hole in the Milky Way is 33 times heavier than the sun. That monster's location is in the binary star system 1500 light years from Earth. The black hole's existence in a binary star system can explained because of the black hole's massive and very large gravity field. That pulls other stars into the black hole. In the same way, the gravity interactions between two stars can pull them together. That causes a situation in which members of the binary star system can be of different ages.

The stars can be impacted if gravity wins the electromagnetic and particle pressure. In a normal star system, the particle flow from those stars pushes them out. And the gravity pulls them together. And if stars collide, they can also turn into the black hole, if they are heavy enough.

"This artist’s impression compares side-by-side three stellar black holes in our galaxy: Gaia BH1, Cygnus X-1, and Gaia BH3, whose masses are 10, 21, and 33 times that of the Sun respectively. Gaia BH3 is the most massive stellar black hole found to date in the Milky Way. The radii of the black holes are directly proportional to their masses, but note that the black holes themselves have not been directly imaged. Credit: ESO/M. Kornmesser" (ScitechDaily, Einstein’s Legacy Proven Again With Monumental Black Hole Discovery)

When a star detonates as a supernova that event forms a neutron star or black holes. The thing is that the black hole takes the quantum fields with it. That thing turns an electromagnetic field and the other three interactions into form. That looks like a tornado. Each interaction is wave movement with different wavelengths. The wavelength determined is the wave movement strong, or weak nuclear force, electromagnetism, or gravity.

In black holes, the intensive gravitation presses those interactions into so small space, that they start to interact with each other. That means four fundamental interactions turn into one superinteraction. This superinteraction forms energy with enormous energy levels. The black holes do not only pull objects in them. Radiation that comes from the black hole's material disk and relativistic jet push particles away. Near black holes energy flow is so strong, that it makes stars glow brighter than they should.

https://scitechdaily.com/einsteins-legacy-proven-again-with-monumental-black-hole-discovery/

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