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In this episode of Discover Daily we explore a new revelation: scientists have discovered that NASA's historic 1986 Voyager 2 flyby of Uranus occurred during an extremely rare solar wind event, leading to decades of potentially misleading assumptions about the ice giant's magnetic environment. The spacecraft encountered Uranus during a powerful solar wind compression that occurs less than 4% of the time, capturing the planet in an unusual state that may have skewed our entire understanding of its magnetosphere.T he compressed state observed during the flyby likely pushed plasma out of the system while intensifying radiation belts, suggesting that Uranus's magnetic environment might be more similar to other gas giants than previously thought. This discovery challenges long-held beliefs about Uranus's "vacuum" magnetosphere and unexpectedly intense radiation belts, indicating these might be temporary features rather than permanent characteristics.This revelation has major implications for future space exploration, particularly in the search for subsurface oceans on Uranian moons. Scientists now believe that Uranus's largest moons, Titania and Oberon, spend most of their time within the planet's magnetic bubble, making future ocean detection missions more feasible than previously thought. The findings will significantly influence how we plan future missions to Uranus, emphasizing the need for extended observation periods rather than brief encounters.From Perplexity's Discover Feed):https://www.perplexity.ai/page/we-might-be-wrong-about-uranus-12krxS2oQOq.kkW8sici9Q)
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