This strange planet like Jupiter is unlike anything scientists have ever seen before

NASA Constantly looking for new planets in the universe. His most recent discovery of a planet similar to Jupiter with inclusive formation turned out to be two of the most fascinating planets of the year. The bizarre nature and constant change in side space is often incomprehensible. Our own solar system is therefore fascinating or sufficient. Mars is a rosy Earth with a similar past to Earth, Jupiter is a gigantic gas giant and Saturn has a beautiful anise galaxy. These planets alone are enough to keep scientists busy for years.

But the planets in the solar system are being hit hard by the iceberg. Astronomers estimate that there are at least 100 billion planets in the Milky Way β€” and even more in other galaxies across the universe. But man has never been able to find all these planets, astronomers and scientists are doing their best to find as many as possible. Earlier this year, a strange ‘batata planet’ was discovered alongside an alien planet with moving clouds of iron and gemstones. In March 2022, NASA confirmed the discovery of 5,000 extrasolar planets outside our solar system. It’s impressive that NASA hasn’t stopped its pursuit of the planet so far.

April 4, NASA announces a newly discovered planet – now called AB Aurigae b. AB Aurigae b is a gas giant similar to Jupiter. While the composition of the gas is similar, everything else on Earth is very strange. On the other hand, AB Aurigae b is believed to be nine times more massive than Jupiter, since Jupiter is already twice as massive and is the mass of all other planets in the solar system. to combine, the quality of AB Aurigae b is not a firefighter. What makes the huge tamanho even more intriguing is how the planet formed. AB Aurigae b orbits its parent star at a distance of 8.6 billion miles. This is more than Pluto’s best distance from the sun – come up with an exciting theory behind AB Aurigae b’s strange formation.

Like Jupiter, Saturn and Netuno, gas giants are generally formed by “nucleation of the core”. Planets that form in this way originate from a circulating disk. Small bodies orbiting the host begin to collide and grow in the disco, and the planet’s core gradually accumulates gas, eventually forming a gas giant. It’s a theory that makes sense to most of the two gas giants, but it’s complicated to apply to AB Aurigae b. According to NASA, the sheer distance between AB Aurigae’s star means exactly what it means “Somehow a planet the size of Jupiter formed due to the expansion of the core over a long period of time.” Not to mention a planet nine times larger than Jupiter.

Contrary to the generally accepted theory of nucleation, scientists believe that AB Aurigae b was formed by another process called “disk instability”. Based on that idea, a big size esfria disco that moves behind its host star. When the disco is in full swing, “One or more fragments of planetary mass” Launch and create a planet b as AB Aurigae.A NASA confirmed the bizarre properties of Aurigae b using Hubble photos (see above). Commenting on the findings, researcher Thyne Currie says: β€œIt is extremely frustrating to explain this system. That’s one of the reasons we used Hubble for this project β€” a bright image that’s even better than disco light and planet scales.”

As anyone on this scale discovers, it has important implications for AB Aurigae b. Find the planet and understand how it was formed in such a way that it opens the door to further discoveries in the future. As Alan Boss of the Carnegie Institution for Science explains: “This new discovery provides strong evidence that some gas giant planets may have formed by a disco instability mechanism. Another. one method.” Whether exploring the future with Hubble or the James Webb Space Telescope, AB Aurigae opens an inviting door for us. NASA†

source: NASA

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