Placeholder Image

字幕表 動画を再生する

  • [♪ INTRO]

  • Solar eclipses tend to be pretty big news.

  • The 2017 one in North America was hugely memorable for millions of people, including the SciShow team.

  • And the 2019 one in South America was equally amazing and Instagram-worthy.

  • But during those events, the sky isn't the only thing people were looking at.

  • They were also fascinated by these crescent-shaped lights that appeared on the ground,

  • most noticeably underneath trees.

  • The lights are one of the most fun parts of any solar eclipse,

  • and the science behind them is pretty good, too.

  • The biggest thing causing these lights is called the pinhole camera effect.

  • Like the name says, it was originally used to describe pinhole cameras,

  • which work by letting light through a tiny hole in a screen.

  • But the same physics applies when light from an eclipse passes through the spaces between tree leaves.

  • On the most basic level, light comes from the Sun, passes through those gaps,

  • and then hits a projection surface, usually, the ground.

  • But the important part is that not every ray of light is able to pass through.

  • The only rays that reach to the ground are the ones angled in just the right way

  • to make it through the spaces between the leaves.

  • And much of that light takes a very specific path.

  • It starts from one side the Sun, travels through the gap in the leaves,

  • and hits the other side of the projection surface.

  • So light that comes from the left side of the Sun ends up on the right side of the patch of ground, and vice versa.

  • This creates an image of the Sun that's both upside-down and backwards.

  • And it's why those little blobs of light look so much like the solar eclipse happening way up in the sky:

  • They're tiny images of the eclipse itself.

  • Technically, this means you can observe this phenomenon

  • regardless of whether an eclipse is happening or not.

  • It's just that the Sun, without the Moon in front of it, looks like a circle,

  • so its projected image is just a circle.

  • Pretty nondescript.

  • It's only once the Moon starts getting in the way that things become all interesting and pretty.

  • The cool thing about these images isn't just their shape, though,

  • it's also the fact that they're really crisp and clear.

  • Like, look at these lights compared to the blobs you normally see underneath trees.

  • The normal lights are fuzzy, while the eclipse ones are sharp little moon-shaped things.

  • That happens for at least two additional reasons.

  • One is that there's less ambient light during an eclipse.

  • Normally, sunlight gets refracted and bounces around in our upper atmosphere.

  • That gives the sky its nice blue glow, but that glow is another source of illumination,

  • which makes the lights and shadows we see pretty fuzzy.

  • As a solar eclipse approaches totality and the Moon moves completely in front of the Sun,

  • that additional glow is dramatically reduced.

  • That means you don't get as much interference, so you get much cleaner, photo-worthy images.

  • The other reason these things get so sharp close to totality

  • is because the visible portion of the Sun becomes narrower.

  • Normally, the sharpness of a shadow depends on how far away you are from a light source:

  • If you're really close to it, the shadow will be sharper, and if you're farther away,

  • it will be more fuzzy.

  • But changing the size of the light source can have the same effect.

  • When you decrease the size of your light source relative to the thing that's casting a shadow, like,

  • by covering up part of the Sun, the shadows change.

  • The ratio of things that are totally in shadow versus only partly in shadow increases,

  • and that gives those eclipse lights on the ground sharper edges.

  • So the next time you're experiencing a solar eclipse, take some time to look down.

  • There's a lot that those funny-looking lights can teach you.

  • And hey, if you're not willing to wait until the next eclipse, you're not out of luck.

  • At night, LED streetlights shining through tree leaves can project some pretty cool pinhole images, too.

  • So ultimately, solar eclipses are cool in a lot of ways, but in this case,

  • they help highlight some of the amazing phenomena that surround us all the time!

  • I hope you get the chance to check out these amazing shadows the next time you experience a solar eclipse,

  • especially since looking at shadows is a great way to see what's happening

  • without looking at the sun.

  • Because, in case you've forgotten, that is a really bad idea,

  • and we have whole video that explains why which you can watch next.

  • [♪ OUTRO]

[♪ INTRO]

字幕と単語

ワンタップで英和辞典検索 単語をクリックすると、意味が表示されます

B1 中級

日食で三日月型の光が生まれる理由 (Why Solar Eclipses Create Those Crescent-Shaped Lights)

  • 2 0
    林宜悉 に公開 2021 年 01 月 14 日
動画の中の単語