Scientists were able to measure both the size and orbit of a gas giant exoplanet nearly 1,300 light years from Earth named GOT ‘EM-1b, short for Giant Outer Transiting Exoplanet Mass. This planet is about five times the mass of Jupiter.
Scientists typically try to measure the size of gas giant planets such as Jupiter and Saturn as they are farther from orbiting stars. Yet, the planet appears in what researchers call Our “solar district” in 2010, when NASA’s Kepler Space Telescope first discovered the object. The astronomers then observed a periodic decrease in the brightness of a nearby star, known as Kepler-1514, which gave researchers the possibility of orbiting the planet.
A research team from the University of California, Riverside, discovered that the planet formally named Kepler-1514b, following its parent star, has an unusually long orbit of 218 days. “Spending 218 days to orbit the star is the order of magnitude. It is significantly longer than most giant exoplanets we have ever measured, ”said lead astronomer Paul Dalba in a UC Riverside statement provided to Space.com among the thousands of planets at the Cape. Leer has discovered, only a few dozen have been in orbit for 200 days or longer.
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It is possible that learning more about GOT’s EM-1b and its giant planets like this one could tell us more about the solar system. From the sun and other gas giants that are closer to the stars, ”Dalba said.
The discovery of giant planets that do not move closer to stars over time will act like gas giants in our solar system and tell us how stable our solar system is and how normal it is developing. Astronomers believe that Jupiter may protect Earth from other objects in space that could affect our planet. “Blue Marble” is stable.
Unfortunately, it’s hard to find anything similar to Jupiter and Saturn, so scientists are excited to learn more about GOT’s EM-1b.
Dalba and his team presented their research at the 237th Meeting of the American Astronomical Society and detailed their findings in a paper accepted for publication in the Astronomical Journal.
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