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  • Thanks to CuriosityStream for supporting this episode!

  • Go to CuriosityStream.com/Space to learn more.

  • {♫Intro♫}

  • Imagine working on a huge project for 20 years, and then having to watchalmost helpless

  • as it appears to fail.

  • That's what happened to the team working on the European Space Agency's Hipparcos

  • mission in the 1980s.

  • They had poured years of time, energy, and money into their satellite only to see it

  • suffer what seemed like a devastating blow.

  • But somehow, they turned it around.

  • And today, this little-known mission has totally transformed what we know about space.

  • The Hipparcos mission was named after Hipparchus, an ancient Greek mathematician who made the

  • world's first known star map.

  • And that was the satellite's aim, too!

  • Well, not to make the first map, but to make the best and most complete one!

  • The plan was to do this by performing an astrometry and photometry survey.

  • In other words, the satellite would measure the positions and movements of the stars,

  • and it would measure their brightnesses and colors.

  • In total, the mission's two instruments were supposed to survey five hundred thousand

  • stars over two and half years.

  • But at first, things didn't go as planned.

  • When the satellite was launched in 1989, it was supposed to travel high above the Earth

  • and then get pushed into a nice, round orbit.

  • But once the satellite was up there, the booster responsible for changing its orbit didn't

  • fire.

  • Which was, to put it lightlynot great.

  • Because of this, the satellite was caught in a weird, highly elliptical orbit that passed

  • through the Van Allen Belts.

  • These are big lobes of hot, electrically-charged gases caught in the Earth's magnetic field,

  • and they can degrade solar panels by creating a bunch of small short-circuits.

  • Incidentally, solar panels were how Hipparcos was supposed to keep itself running.

  • So, yeah.

  • Not great.

  • Thankfully, the engineering team managed to find a way around this.

  • Using some leftover fuel, they were able to modify the satellite's orbit a little bit

  • to minimize the amount of time it spent in the Van Allen Belts.

  • The solar panels did still degrade a little, but this new orbit helped reduce the damage.

  • And as a nice bonus, the materials they were made of turned out to be tougher than the

  • team thought.

  • So in the end, Hipparcos pulled through!

  • And by that I mean it lasted a year longer than the original mission design and exceeded

  • its goals.

  • Overachiever.

  • Ultimately, scientists used the satellite's data to put together catalogs that included

  • more than two point five million stars.

  • And besides being a major accomplishment, that helped us make some important discoveries

  • and major predictions.

  • For one, we solved a long-standing problem about the universe's age.

  • For a while, scientists have estimated the minimum age of the universe based on globular

  • clustersancient groups of stars that are some of the oldest structures in existence.

  • When Hipparcos was launched, we thought the oldest clusters were between fourteen and

  • sixteen billion years old.

  • And this was a problem, because all our other evidence suggested that the universe was between

  • eleven point six and fourteen point nine billion years old.

  • So except for a tiny amount of overlap, it seemed like the oldest clusters were older

  • than the universe.

  • And that's... not quite right.

  • To figure out what was going on, scientists used Hipparcos observations of two special

  • kinds of stars: Cepheid variables and RR Lyrae stars.

  • These stars pulse really regularly, and scientists have found that their pulse is related to

  • how bright they are up-close.

  • So by comparing that brightness to how dim they appear from Earth, astronomers can pretty

  • accurately calculate how far away they are.

  • Thanks to Hipparcos, scientists were able to calculate that the earliest globular clusters

  • are actually only about eleven billion years old, so it turns out, they line up with our

  • other data after all.

  • And since the Hipparcos mission, other missions have put the universe at thirteen point seven

  • nine billion years old, completely in agreement with that cluster data.

  • Much closer to home, Hipparcos also helped

  • predict the Shoemaker-Levy 9 impacts on Jupiter!

  • Not just the fact that they were going to happen, but exactly when.

  • Shoemaker-Levy 9 was a set of comets that collided with Jupiter in 1994.

  • Well, it was originally one comet, but it broke apart into multiple pieces.

  • Before they hit, scientists looked at all their data on the comets' positions and

  • compared them to Hipparcos' data about the stars in the background.

  • They used those stars as a reference to figure out exactly where the comets were and how

  • they were moving.

  • And that reference frame was so precise that the impact predictions were within minutes

  • of the actual impact times!

  • Now, compared to figuring out the age of the universe, that might not sound like muchespecially

  • since no one lives on Jupiter, so far as we know.

  • But Jupiter isn't the only planet that sometimes gets hit with comets and asteroids.

  • Earth does, too!

  • So they better we can learn to track comets in space and predict their paths, the better

  • off we'll be.

  • Besides all this, Hipparcos data has also taught us more about our Galaxy's tilt and

  • certain clusters of stars, and it laid the groundwork for tons of research about stars

  • and their planets.

  • The stuff the mission taught us couldand doesfill many books!

  • But in the grand scheme of things, there's something kind of funny about it, too.

  • After all, it's a mission where a bunch of small, short-lived humans looked into the

  • ancient vastness of space and decided they wanted to count the stars.

  • There's something aggressively optimistic about that.

  • And the amazing thing is that it actually worked and taught us more about our corner

  • of the universe.

  • Today, you might hear about other missions studying the stars, but it's worth remembering

  • Hipparcos, too.

  • It laid the foundation for some of today's most groundbreaking astronomy research, and

  • we'll likely be learning from its data for years to come.

  • And to thinkit could have failed just minutes after launch.

  • Thanks for watching this episode of SciShow Space!

  • If you enjoyed it and want to learn more about the universe and everything in it, you might

  • want to check out CuriosityStream.

  • CuriosityStream is a subscription-based streaming service, and they offer more than 2000 documentaries

  • about everything from science and technology to society and history.

  • They even have a series about space exploration!

  • It's called Space Probes, and it looks at missions to Saturn, Mars, and Pluto among

  • other places.

  • So if you liked learning about Hipparcos, you might enjoy that series as well.

  • If you want to check it out, you can get unlimited access to CuriosityStream starting at just

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  • And as a thank-you for watching SciShow, you can get your first thirty-one days completely

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  • the sign-up process.

  • {♫Outro♫}

Thanks to CuriosityStream for supporting this episode!

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この驚くべきミッションは、打ち上げ後にほぼ失敗に終わった (This Amazing Mission Almost Failed After Launch)

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    林宜悉 に公開 2021 年 01 月 14 日
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