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  • A solar eclipse happens when the moon’s shadow falls somewhere on the surface of Earth

  • And a lunar eclipse is the opposite -- when the Earth’s shadow falls on the moon

  • The two sections of the shadow, the dark umbra and the partially shaded penumbra,

  • their placement determines which type of eclipse we can see from Earth.

  • But not all eclipses are made equal.

  • The most spectacular, the one for your bucket list is a total eclipse of the sun.

  • A total solar eclipse begins as a partial eclipse.

  • Youll notice trees projecting the crescent sun,

  • and shadows becoming sharper than normal.

  • The landscape darkens to a bluish-grey and youll start to feel the temperature drop.

  • From the west, the moon’s shadow rushes toward you like a silent storm.

  • Look up and youll see the last sliver of the sun sparkling like a diamond ring,

  • before it’s broken into a string of beads by the moon’s rough terrain.

  • Now you can see the pearly glow of the sun’s corona and the pink and red light from the hydrogen

  • gas of the chromosphere.

  • Together these make up the sun’s outer atmosphere, and a total solar eclipse is the only occasion

  • you have to lay eyes on it.

  • This is totality and if you get a chance to see it, you should.

  • The moon orbits earth every 29.5 days, but we don’t get eclipses every month.

  • That’s because the moon’s orbit is not in line with earth’s orbit.

  • it’s tilted about 5 degrees.

  • That doesn’t seem like much but keep in mind that the scale of the model were showing

  • to you is way off.

  • If the Earth and moon are this size, the distance between them should be around 10 ft.

  • At this distance, 5 degrees is enough to keep the moon’s shadow off of Earth and the Earth’s

  • shadow off the moon most months.

  • So why do we ever get eclipses?

  • Because there are two points where the moon’s orbit crosses the sun’s plane, called nodes.

  • And as the Earth moves along its annual orbit, those points line up with the sun about twice a year.

  • As the moon passes between the sun and Earth at that time, we get a solar eclipse.

  • When it’s behind Earth at that time, we get a lunar eclipse.

  • There are a ton of orbital quirks that make predicting eclipses really complicated, but

  • in general well have a few solar and a few lunar eclipses

  • of some sort every year.

  • But youre more likely to see a total lunar eclipse in your lifetime than a total solar one.

  • The totality of a lunar eclipse can last well over an hour and it’s viewable for anyone

  • on the night side of earth.

  • The moon often turns red during a total lunar eclipse because our planet’s atmosphere

  • scatters the shorter bluer wavelengths of light, while the longer, redder wavelengths

  • pass through.

  • Or to put it another way, a total lunar eclipse projects all of the world’s sunsets and

  • sunrises onto the moon.

  • Total solar eclipses seem much more rare because totality lasts just a few minutes, and although

  • Earth gets a total solar eclipse every 18 months on average, each one is only viewable

  • by less than half a percent of Earth’s surface.

  • Eclipse chasers travel all over the world to put themselves in the path of the shadow.

  • In a total solar eclipse, the moon precisely covers the sun from the vantage point of some

  • place on Earth.

  • This is possible because by coincidence, the sun and the moon appear to be about the same

  • size in our sky.

  • While the sun is 400 times bigger than the moon, it’s also about 400 times farther away.

  • But this alignment isn’t constant.

  • the moon has an elliptical orbit.

  • Its size varies about 12% throughout a month.

  • When it’s closer to us, we can get total solar eclipses, but less than 30% of solar

  • eclipses are total.

  • More often, we get partial eclipses, where the alignment is a bit off, or annular eclipses,

  • where the moon is too far away to fully block the sun, leaving a ring of sunlight around

  • the moon.

  • In the far future, earth will only get annular and partial solar eclipses because our moon

  • is moving further away.

  • We know that because Buzz Aldrin and Neil Armstrong left mirrors on the moon in 1969.

  • Astronomers bounce lasers off those mirrors to measure the moon’s distance.

  • And that’s how they found out that the moon is moving away from Earth by more than 3 cm

  • per year.

  • So in a billion years or so, whatever creatures live here will witness Earth’s very last

  • total solar eclipse.

  • We can see on the Radio One screen, a fantastic total solar eclipse taken from the pictures

  • above the clouds.”

  • " This is just fantastic.”

  • A lot of early civilizations feared eclipses.

  • They were often seen as an attack on the sun or moon by the forces of darkness.

  • But now that we understand our place in space, eclipses are an occasion for awe,

  • and for gratitude.

  • All over the galaxy rocks are casting shadows on other rocks.

  • But only here, as far as we know, is there someone to notice them.

A solar eclipse happens when the moon’s shadow falls somewhere on the surface of Earth

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