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  • [♪ INTRO]

  • Here's a question for you:

  • Which looks bigger, the full moon on the horizon, or your index fingernail held at arm's length?

  • Without actually going outside to check, most of us would probably think the Moon is bigger.

  • I mean, it looks huge on the horizon.

  • But from your perspective on the ground, the Moon and your fingernail are

  • actually about the same size, no matter where the Moon is in the sky.

  • It also doesn't matter how big your hands are, because if you have giant hands like mine

  • you probably have longer arms, too, so it balances out.

  • And yet, it really doesn't seem like the moon and your fingernail should be the same size.

  • But they are.

  • The Moon looks bigger when it's on the horizon because of something called the Moon illusion,

  • which has been puzzling people for thousands of years.

  • Seriously, Aristotle worked on this problem.

  • Before we get our minds too twisted, let's review what we know for sure.

  • When we talk about the size of something in the sky, we're talking about its angular

  • size, or what fraction of the celestial sphere it takes up.

  • On average, the Moon is about half a degree across, meaning you'd have to line up about

  • 695 Moons to make one 360-degree circle around the whole sky.

  • And it's true that the Moon does actually get larger and smaller in angular size.

  • In fact, it can change by up to 13% in diameter,

  • mostly because its elliptical orbit takes it closer or farther from the Earth over time.

  • During the course of a night, though, it's a really tiny change.

  • And despite what our brains try to tell us, the Moon is actually about 2% smaller

  • when it's on the horizon compared to when it's high in the sky.

  • To see why this happens, think about the distance from the center of the Earth

  • to the center of the Moon.

  • When the Moon is directly overhead, the radius of the Earth is boosting us a little closer,

  • making it seem a little larger.

  • But when the Moon's on the horizon, it's basically at a right angle to us,

  • and the Earth's boost doesn't help as much.

  • So back to the problem at hand.

  • If the Moon is really farther away when it's on the horizon, why does it seem so big?

  • Well, we know physics isn't the answer, so it must have to do with biology.

  • Over the centuries, two main hypotheses have emerged.

  • The first, sometimes called the relative distance hypothesis,

  • is based on a shortcut used by our brains.

  • Over millions of years of evolution, our visual systems developed to associate

  • things near the horizon with being far away.

  • After all, when you're standing on the ground,

  • the horizon is literally the farthest thing you can see.

  • But stuff that's far away might still be important, so your brain kind of cheats and

  • makes that stuff seem bigger than it really is.

  • And when you see the Moon near the horizon,

  • that little cheat makes it look a bit bigger than it should.

  • There's just one problem with this idea: when you ask them, most people will say the

  • Moon seems closer the nearer to the horizon it is, not farther away.

  • That's where this whole question came up in the first place:

  • the Moon seems bigger and closer, even though it's not.

  • Which brings us to the relative size hypothesis,

  • which claims that it's not just the horizon that matters.

  • Unless you're in the ocean or the middle of the desert right now, when you look off

  • into the distance, you'll probably see a bunch of other stuff, like trees or rooftops.

  • And you often have to look past all of that to see the rising Moon.

  • That's where another trick of the eyes,

  • called the Ebbinghaus illusion, comes into play.

  • The Ebbinghaus illusion is what it's called when an object seen surrounded by smaller

  • things appears larger than an identical object surrounded by bigger ones.

  • Take these orange circles, for example.

  • They're exactly the same size, but for most people they don't look like it,

  • all because of the grey circles around them.

  • So when you see the Moon framed by things like trees that we know to be pretty small

  • compared to the rest of the landscape, it makes the Moon seem big.

  • And when the Moon is overhead, surrounded by the vastness of the sky,

  • it shrinks in your mind's eye.

  • Unfortunately, there's a problem with this hypothesis, too.

  • Airline pilots, who see the Moon against the horizon with nothing framing it,

  • also report the Moon illusion.

  • So could either of these ideas actually be right?

  • It's hard to know for sure, but modern neuroscience suggests it might be the first one,

  • the relative distance hypothesis, that's correct.

  • We now know that our brain's vision system is probably made up of two separate pieces,

  • the ventral stream and the dorsal stream.

  • The ventral stream helps you figure out what you're looking at,

  • and then the dorsal stream places that object in 3D space around you.

  • The Moon illusion happens when the combination of the two streams breaks down.

  • First, your ventral stream sees a white thing on the far-off horizon and thinks,

  • Hey, this is an instance of the thing 'Moon,'

  • and it must be really big because it's far away like the horizon is.”

  • Then, the dorsal stream takes over and says

  • Ah, this Moon thing is really big and so it must be pretty close.”

  • In the end, you end up thinking the Moon is both bigger and closer than it really is;

  • exactly what most people report!

  • On the other hand, when you see the Moon high in the sky,

  • your object recognition doesn't get tricked by the presence of the horizon

  • and you end up with a better sense of the Moon's angular size.

  • It's probably not too surprising that our visual systems, well-adjusted for threats

  • here on Earth, aren't really equipped to deal with the vast distances of space.

  • But it does mean that we don't always see the sky as it really is.

  • Thanks for watching this episode of SciShow Space!

  • If you're interested in learning more about skywatching,

  • you can check out our episode about body hacks you can use to make yourself a better stargazer.

  • [♪ OUTRO]

[♪ INTRO]

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月の大きさが変わる不思議な光の錯視 (The Weird Optical Illusion that Changes the Moon's Size)

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    林宜悉 に公開 2021 年 01 月 14 日
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