Astronomers have spotted the heaviest star in the universe, weighing 25 billion tons



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SOURCE: London – Kamal Qubaisi

Each gram of star recently discovered by American astronomers, astonished by its mass density, to such an extent that they previously considered the heaviest stars in the universe, weighs 25 million tons on Earth, although small, only 25 kilometers in diameter, but its mass is 333,000 times The Green Observatory, a Virginia-based observatory that has just been discovered, gave an example summarizing what was important to say the least, according to the prestigious British journal Nature Astronomy. Posted on Monday.

The Observatory wrote on its website that if the star was in sugar and there cut out the cube that we put in a cup of coffee, known to be a cubic centimeter and weighing 4 grams, you will find that what you have taken in the J0740 + 6620 away from the Earth, 4600 light years, weighing 100 million tons If you go as far as Arab.Net, you'll know that a kilo d '. star weighs 25 billion tons on Earth, more than the world sugar production for over 134 years, according to the Statista German statistical website, of all kinds, The world production was about 186 million tons l & rsquo; Last year.

According to published research, this enormous weight of only 1,000 grams of mass and stellar material defies the laws of physics. High to swallow around stars, planets and moons, as it is a type of neutron, known to be made up of compressed giant star compressed remains, ending their lives with a huge explosion, followed by the integration of its substance and its compression within them, then entering a new phase, during which the protons and the electrons melt and generate neutrons The search for this star, which is discussed in more detail in the attached video, helps to better understand the "mysterious and fascinating" neutron stars of published research.

Also known as a "neutron star", it emits radio beams as a beacon during its rotation, a white dwarf used by scientists to measure its theory of the mass of Einstein's relativity. They also examined an observatory telescope and felt the details that impressed them most, the most important material that made him a giant at first, then a dwarf after the explosion and then narrowing to the point where the cubic centimeter has become "equal to the weight of the earth's population" of 7 billion and 660 million inhabitants. We hear it after the third minute of the video.

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