And then by searching for a planet in 2.8 au they discovered the first asteroids.
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This is terrific. I will add that once you have calculated (n + 4) / 10, you can multiply the result by 93 million to get the distance in miles.
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And then multiply it by approximately 1.61 to get the distance in kilometers
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Titius-Bode law. The formula/relation is pretty simple and it correctly predicted orbit of Ceres but deviations get pretty big for outer reaches of the Solar Systempic.twitter.com/4NOVFL4bf6
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The rule was firstly discovered by Johann Daniel Titius in 1766 and became known thanks to the works of Johann Elert Bode in 1772.
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The dwarf planet Ceres is at 2.77 so it works nearly perfectly there too.
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I wonder if there’s a physical reason behind this...
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Decent compression algorithm for the time.
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2.8 could be Ceres (2.76)?
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Plus if you were calculating Earth it would be the distance from Venus to the Sun plus the distance between Venus and Mars. The distance to mars, would be the distance of sun to earth plus difference between Venus and earth + Venus and mars, and so on:).Really pretty!
@elonmuskpic.twitter.com/1nBBLof5wg
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I like you girl, boy, lady, man, binary entity- "me" you are just another version of me and we are all one- split
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