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  • [ ♪ Intro ]

  • Before the 1990s, we had no idea how the solar system compared to the rest of the galaxy.

  • We'd never found a planet around a foreign star, so for all we knew,

  • our solar system was special.

  • But in 1992, radio astronomers published their discovery of the first two exoplanets,

  • and soon after that, the floodgates opened.

  • In the years since, powerful telescopes have revealed more than 3500 exoplanets in the galaxy,

  • and research now suggests that nearly every star has at least one planet.

  • So in that respect, our solar system is just another face in the crowd,

  • but we're still kind of a weird one.

  • Because out of thousands of other systems, none look quite like ours.

  • We could be special after all.

  • The question is why.

  • Scientists have had a basic understanding of how the solar system formed since at least 1755,

  • when the philosopher Immanuel Kant proposed the nebular hypothesis.

  • He leaned on the work of other scientists of his day,

  • and hypothesized that the Sun and planets evolved out of a cloud

  • that collapsed under its own gravity to form a disk.

  • Then, to make a 4.6-billion-year-long story short,

  • that disk became the plane where all of the planets orbit today.

  • That basic idea has stuck around so long because it's really good at broadly describing the solar system,

  • and extrasolar systems, too.

  • It tells us why planets generally sit in the same disk and orbit in the same direction.

  • It also explains why we sometimes see disks around newly formed stars.

  • But it doesn't explain everything.

  • Take Mars.

  • It's puny.

  • It has only about one-tenth the mass of Earth, but that shouldn't be the case.

  • The nebular model tells us that, back when Mars was forming,

  • there should have been enough material in Mars's part of the disk for it to grow much larger.

  • And most simulations suggest that it should be closer to Earth's mass.

  • So something doesn't add up.

  • And Mars isn't the only outlier.

  • The solar system's planets are wildly different in size, ranging from little Mercury to giant Jupiter,

  • but exoplanets don't usually vary much in size within one system.

  • Scientists sometimes describe them aspeas in a pod,”

  • because their sizing and spacing are so even.

  • So all the variation we have here is not normal.

  • And not only do we have these uncommon features,

  • but we're also missing some of the most common ones, like super-Earths.

  • These are planets more massive than ours, but less massive than something like Neptune.

  • More than half of Sun-like stars seem to have one, but there's nothing like that here.

  • So our solar system has left us with a lot of mysteries.

  • Fortunately, we're starting to get to the bottom of them with the help of computer simulations.

  • As far as we can tell, a lot of our weirdness is probably Jupiter's fault.

  • Thanks, Jupiter!

  • Yeah, if you thought Jupiter was a majestic, swirly wonderland, well, yes, it is.

  • But it's also a huge troublemaker.

  • Based on evidence from meteorites,

  • scientists believe that Jupiter was born early in the formation of the solar system,

  • and that it may have roamed around a lot before settling in where it is today.

  • In 2011, a team of scientists proposed a hypothesis about this called the grand tack model.

  • There's still some debate about it, but it's based on simulations that suggest

  • swirling gas around our young Sun swept up Jupiter and whisked it inward.

  • It got to around where Mars orbits today before a newborn Saturn reined it in.

  • While Jupiter hung out there, its gravity likely robbed a lot of the material that would have formed Mars.

  • Eventually, when the gas cleared out from the disk, it released its hold on the two giant planets,

  • and they were free to wander back toward the outer solar system.

  • Some astronomers also believe that, as it and Saturn threw around the material in the disk,

  • they interfered with other planets as well.

  • Which could explain the wide range of sizes.

  • Jupiter might even be to blame for destroying any super-Earths.

  • According to scientists building on the grand tack model,

  • Jupiter might have thrown off the orbits of would-be super-Earths

  • and the material that would have formed part of them.

  • If that's true, it could have created debris that slowed the whole mess down

  • and sent it spiraling into the Sun.

  • We'll probably never know for sure if that's what really happened,

  • but what is pretty clear is that the planets didn't just neatly form in one place and stay there.

  • For some reason, our solar system seems to have had much more drama than others.

  • But wait, there's more.

  • If all that sounds violent, the objects past Neptune may have had an even wilder shakeup.

  • Out there, objects have bizarre, irregular orbits,

  • and generally aren't in the same plane as the planets.

  • But, if we trust the nebular model, and believe they evolved out of the same disk as Earth,

  • something must have happened to make them that way.

  • Some researchers think they could have been stirred up by a passing star.

  • For a long time, the chances of that seemed nil.

  • But in 2018, a group of researchers published a paper looking into it more.

  • They knew that the Sun was born in a cluster of stars that split up after about 10 million years.

  • So they created a model based on the Orion Nebular Cluster,

  • a similar cluster thought to have at least as many stars as the one our Sun was born in.

  • After running simulations on it, they made the case that during those early years,

  • the probability of a star passing nearly as close Pluto was more like 20 or 30 percent.

  • And that could have easily scattered objects into the orbits we see today.

  • Finding the answers to these questions is important for understanding our origins,

  • but not just in a “we seek to understand the cosmoskind of way.

  • Whatever happened in the early solar system is a big part of the reason that Earth exists,

  • and that it's in just the right orbit for life.

  • So if we understand how the solar system got the way that it is,

  • we can use that information to figure out how many other systems might have planets like ours,

  • or why they don't.

  • And who knows?

  • Maybe one day, we'll discover another solar system that's weird in all the right ways.

  • Thanks for watching this episode of SciShow Space!

  • You know, over the last few years, we've made more than 500 videos,

  • because there's a lot to say and a lot to explore out there.

  • If you haven't any questions we haven't answered, though, we'd love to hear from you.

  • So feel free to leave your suggestions in the comments, and we'll consider them for a future video.

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私たちの太陽系があなたが思っているよりも奇妙な理由 (Why Our Solar System Is Weirder Than You'd Think)

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    林宜悉 に公開 2021 年 01 月 14 日
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