Less than 7% of Americans have good heart health - with minorities and less educated people suffering the.Why cranberries are a superfood.at least according to studies funded by the cranberry industry! Experts.Say goodbye to 'range anxiety': Scientists develop a lithium-ion battery that can survive longer in freezing.More than a dozen sharks are lurking along the northern east coast: Tracking maps shows a 528lb predator.Rare clouds that glow in the dark are the most vibrant in 15 years for sky watchers in the upper US, Canada.Botanical 'wonder of the world': New species of giant waterlily with leaves that can reach over 10ft wide. 'We can then apply these findings to different types of planets.'ĬubeSats have been used for a variety of missions, including looking at the sun's activity and looking at supernova in distant galaxies.Įarlier this year, the European Space Agency said it was going to launch a CubeSat made of wood by the end of the year to see if it could withstand the conditions of space. 'The more places we understand atmospheric escape, the better we understand atmospheric escape as a whole,' France said. In addition to looking at the physics of these planets, CUTE's findings could give new insight into other planets, including Earth and other rocky worlds, such as Mars. 'The inflation and escape these exoplanetary atmospheres undergo are on scales just not seen in our own solar system.' 'Ultimately CUTE has one major purpose, and that is to study the inflated atmospheres of these really hot, pretty gassy exoplanets,' said Arika Egan, a graduate student at LASP who has helped to develop the mission. This information may provide the first concrete evidence for magnetic fields on extrasolar planets. Transit lightcurves created from CUTE observations will provide constraints on the composition and escape rates of these atmospheres. The telescope will do this by measuring how the NUV light from the host star is changed as the exoplanet transits in front of the star and passes through the planet’s atmospheres. Once it's in space, CUTE will be able to measure how fast gases are escaping from at least 10 different Hot Jupiters. 'Because these planets are parked so close to their parent stars, they receive a tremendous amount of radiation,' France added. Upon its discovery, KELT-9b - roughly 670 light-years from Earth - was deemed the hottest planet ever found, smashing the record by more than 1,100☌. KELT-9b is named after the Kilodegree Extremely Little Telescope (KELT) system first used to detect the planet in 2017. One such example is KELT-9b, discovered in June 2017, which has a temperature of 7,800 degrees Fahrenheit (4,315 C) and takes just a day and a half to orbit its star. Principal investigator, Kevin France, from Colorado University Boulder's Laboratory for Atmospheric and Space Physics (LASP) said it was 'exciting but a little daunting.'Īccording to NASA, Hot Jupiter planets are gas giants worlds similar in size, or larger than Jupiter - but that orbit very close to their stars, sometimes closer than Mercury does to the sun in the Solar System. Meanwhile, the CubeSat 'Cheerios box' is an experiment NASA is conducting to see how much science can be done with a small satellite, according to the team behind the project. The latest edition will specifically look at climate and climate-change impacts on ecosystems that could help drive policy and conservation efforts.
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