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There At age 100, Einstein's general relativity suggested that starlight was extended at longer wavelengths by the gravitational field of a black hole and that the star would be red at Red, an effect known as the polar drift. "At the Max Planck Institute of Cosmic Physics, Frank Eisenhower:" It was the first time we could directly test the theory of general relativity of physics. Einstein near a giant black hole. "
" At the time of Einstein, they could not think or even dream of what we see today. "
A team of scientists from the South European Observatory began to observe the central area of the Milky Way using a mbadive telescope to observe the movement of stars near the hole black giant is 26,000 light years from Earth and has a mbad of 4 million times the mbad of the sun.
Scientists have chosen to observe a star called S2, while the The star completes its orbit in 16 years 19659001] Over the past 20 years, the precision of the devices used has improved, which allowed them, in May 2018, to take infinite measurements. speed of the orbital star exceeds 25 million km / h at the approach of the black hole.
Odell Strobe of the Paris Observatory says that the wavelength of light of the star extends to escape the claws The gravity of the giant black hole, which changed its shape from blue to red
She added that scientists now hope to test other theories relating to the physics of black holes
Reinhard Jenzel of the Max Planck Institute, who led the international team. This is the first step on a long road, cut by the team for many years and we hope we will continue in the coming years. "
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Einstein's Theory of General Relativity, 100 years ago, indicated that starlight extended to longer wavelengths by the gravitational field from a black hole, "It was the first time that we could directly test Einstein's theory of general relativity near a giant black hole," said astronomer Frank Eisenhower at the Max Planck Institute of Cosmic Physics.
"At the time of Einstein, we could not even think or even dream of what we saw
A team of scientists from the South European Observatory began to observe the central area of the Milky Way with the help of a mbadive telescope to observe the movement of stars near the giant black hole about 26 years ago.This is about 4 million times the mbad
Scientists have chosen to observe a star called S2, while the star completes its orbit in 16 years, scientists realized that it would return to the black hole in 2018.
The precision of the devices that they used allowed them in May 2018 to take precise measurements in collaboration with scientists around the world This shows that the speed of the orbital star exceeds 25 million km / h at the approach of the black hole.
The orbital wavelength of the canvas was lengthened while she was trying to escape the gravitational claws of the giant black hole.
Scientists hope to see other theories about black hole physics
Reinhard Jenzel, of the Max Planck Institute, who led the international team, said: "C & # 39, is the first step on the road. Long time, the team has cut for many years and hope to continue in the coming years. "[19659021] (function (d, s, id) {
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