This episode of Crash Course is brought to you by SquareSpace Venus was the Roman goddess of love, and honestly,
if you’ve ever seen it after sunset, hanging like a diamond in the twilight, the planet
Venus is stunningly beautiful. The only problem? Venus is hell. Venus is the second rock from the Sun, closer
to the Sun than Earth is. It’s the third brightest natural object in the sky after
the Sun and Moon, and it’s shockingly bright when you see it, in fact, a lot of the time
when people see it they think it’s an airplane. Some folks—and this is true—even report
it as a UFO. Like Mercury, it never gets far from the Sun;
at best it can reach about 45° away. If you want to see it, the best time to look is after
sunset or before sunrise. Through a telescope, Venus can be seen to
undergo phases just like the Moon and Mercury do, too. When it’s on the far side of its
orbit from Earth, we see the illuminated face, so it looks full. As it rounds the Sun and
approaches Earth in its orbit, it gets bigger from our point of view, because it’s getting
closer, but it also wanes; it’s gibbous, then half full, then a crescent. When it gets between the Sun and Earth, it’s
as close as it can get to us, about 45 million kilometers away. It’s a very thin crescent
at that point, but close enough to us that you can see the phase easily with just binoculars.
Ironically, even though we see only a small portion of it illuminated then, it appears
so big that it’s actually brighter than when it’s full but far away. The orbit of Venus around the Sun is tipped
with respect to the Earth’s by a little over 3°. So, like the Moon as seen from Earth,
Venus usually passes above or below the Sun in the sky as it laps the Earth and pulls
ahead in its orbit. But again, just like with the Moon, sometimes
things line up just right and Venus passes directly across the Sun’s face. This event
is called a transit. During a solar eclipse the Moon can completely block the Sun, but
Venus is much farther away, so it can only block about a tenth of a percent of the Sun.
We see the planet as an inky black circle against the Sun’s face. Transits were very important centuries ago.
Scientists realized that by precisely timing the start and end of a Venus transit, and
applying a little geometry, they could figure out how far away Venus was, and use that like
a meter stick to measure the size of the entire solar system. Grand expeditions were sent
to remote parts of the Earth where the transits were visible, but it turns out Earth’s atmosphere
blurs the disk of Venus just enough that exact timing of the transit isn’t possible. Scientists had to wait until we could use
radar and other methods to get the exact distances to planets in the solar system, but transits
are still pretty amazing to watch. They’re very rare: the way the orbits of Venus and
Earth align, they happen in pairs separated by eight years, but then don’t happen again
for over a century. The last pair of Venus transits happened in 2004 and 2012. I was
fortunate enough to see both the 2004 and 2012 transits and they were totally cool.
But the next one? December 10, 2117. If you missed the last two, sorry about that. Venus is actually so bright sometimes that
it can be seen in broad daylight; I’ve done this myself. So here’s an obvious question:
Why is Venus so bright? Telescopic observations show it to be a nearly featureless white disk,
completely covered in a thick cloud layer, reflecting almost all of the sunlight that
falls on it. OK, great, so that’s why it’s bright, but then why are its clouds so thick? Well, it turns out that Venus might be nice
to look at from a distance, but up close, yikes. In some ways, Venus is the planet in the solar
system most similar to Earth. It’s only a wee bit smaller — 12,100 kilometers across,
about 95% the width of the Earth — and has 80% the Earth’s mass. But if it’s a twin
of Earth, it’s the evil twin. Venus is closer to the Sun. At a distance
of about 110 million kilometers, 2/3rds the distance of the Earth from the Sun, you’d
expect it to be warmer. What you might not expect is that its surface temperature is 460°
Celsius— that’s 860° F, hot enough to melt lead. And it gets worse. Its air is almost entirely
composed of carbon dioxide, and atmospheric pressure on Venus is a crushing 90 times that
of Earth’s! As if that’s not bad enough, it rains sulfuric acid, too, but it’s so hot the
drops evaporate before hitting the ground. Yep. Venus is hell. Why? How did it get so hot? It turns out Venus
is a victim of a runaway greenhouse effect. A long time ago, Venus may have been more
temperate, and might have even had liquid water oceans. But the Sun was cooler when
it was younger, and as it aged it got hotter. At some point, the thinking goes, the Sun
warmed Venus enough that its oceans started to evaporate. Water vapor is an excellent
greenhouse gas, so Venus’s heating accelerated. It got so hot the oceans boiled away. Any
carbon dioxide dissolved in the water was released to the atmosphere, heating the planet
even further, and thickening the atmosphere hugely. It got so hot that the CO2 even got
baked out of the rocks, which was like, well, throwing gasoline on a raging fire. The greenhouse
effect raged out of control at that point. Venus lacks a magnetic field, so it has no
protection from the solar wind blasting past it. Over billions of years, this stripped
a lot of the lighter elements from the atmosphere, as well as all of the water. The resulting
atmospheric chemistry is pretty screwy compared to Earth. Sulfur dioxide is a popular molecule
there, and clouds form from sulfuric acid. Those clouds are high off of the surface,
and very white and reflective. It’s pretty incredible to think about. The
Sun warmed, so Venus warmed, and then a cascading series of events lead to it being a ridiculously
hostile environment due to the runaway greenhouse effect. Even though Mercury is closer to the
Sun, Venus is way hotter! Given that, the last thing you might expect
on Venus is… snow. Well, possibly; observations show that there’s something shiny on the
mountaintops, and snow fits the bill. But it’s not water ice like on Earth. As the
thinking goes, at lower elevations, minerals like bismuthinite and galena would be vaporized
by the heat. They’d then circulate up into the atmosphere and deposit onto the surface
at mountaintops where it’s cooler. If this is correct, then Venus is so bizarre it literally
snows metal there! There’s other weird stuff going on at Venus,
too. For one thing, it has an incredibly slow rotation rate: One day on Venus is about 243
Earth days! It rotates so slowly that at its equator, you could jog faster than the planet
spins. Its slow spin is probably why it has no magnetic field, too, since rotation is
critical in generating the magnetic fields of objects like the Earth and the Sun. Not only that, but the planet spins backwards!
This is called retrograde motion, and in a sense it means Venus’s north pole got swapped
with its south pole: It flipped over. It’s not clear why that happened. A lot
of ideas have been proposed, including a giant collision that skidded the planet’s spin
to a halt, but as of right now, Venus’s lazy rotation is still not completely understood. If you could survive it, living on Venus would
be really odd. The thick clouds mean it’s about as bright as twilight on Earth, despite being
closer to the Sun. The thick atmosphere also means surface temperature is about the same
everywhere on the planet, pole to equator. Due to its backwards rotation, the Sun would
rise in the west, and due to the slow rotation its day is actually longer than its year!
Calendars on Venus would be a mess. But calendars would probably be the least
of your worries if you had to live there. Incidentally, Venus has no moon. Being closer
to the Sun, it’s possible that any moon it may have once had would have been perturbed
by the Sun’s gravity, and was eventually tossed out of Venus’s grasp. It’s also possible
it simply never had one to begin with. And here’s another fun fact: Venus is the
most spherical of all the planets. Because it rotates so slowly, it doesn’t bulge out
at the equator from centrifugal force like Earth does. The diameter from pole to pole
is almost exactly the same as it is through the equator.
We don’t have a lot of data about the interior of Venus, though given its similar composition
and size to Earth, it’s not too crazy to think it has a core, mantle, and crust like
we do. But even given the weird atmosphere, the surface of Venus is really different than
ours. Venus doesn’t have tectonic activity like
Earth does; it’s thought that water helps drive that, and Venus long ago lost its water
to the greenhouse effect. Still, the surface appears to be very young; about a thousand
impact craters have been found, and they’re evenly distributed around the planet. The
majority appear to be in pretty good shape, they haven’t been eroded much, indicating
they aren’t terribly old. Not only that, but the erosion we do see seems to be about
the same for all these craters, indicating they’re all roughly the same age! That’s weird! This all points to some sort
of catastrophic event that resurfaced the planet roughly half a billion years ago. Any
features older than that were wiped out, and then big impacts over time created the craters we
see now. But what could repave an entire planet? A big clue can be found by counting volcanoes
on Venus: There are 167 bigger than 100 kilometers in diameter, a huge number. These volcanoes
could, over time, pump out enough lava to cover the entire surface of Venus. There’s
also a lot of indirect evidence that volcanic activity is ongoing, now, today: One mountain
on Venus, called Idunn Mons, is seen to be abnormally warm, for example, indicating it
might have magma under its peak. Also, sulfur dioxide levels dropped a lot in the 1980s,
which may indicate a big volcanic event happened in the 1970s, blasting out lots of the gas,
which then subsided. It’s possible, though somewhat speculative, that the entire planet
is a supervolcano, a ginormous pressure cooker of barely-constrained magma. Every few hundred
million years, the whole surface lets go in a colossal eruption, covering everything in
lava. Yikes. Some volcanic features on Venus are different
than on Earth. Without tectonics, slow bubbling leaks of lava from the interior of the planet
can continue in one spot for a long time. This creates what are called “pancake domes”:
huge, flat, low domes. Many are dozens of kilometers across, but less than a kilometer
high. The lava that formed them was probably really viscous, which is why the domes are
flattened and spread out. The searing surface temperature of Venus probably kept the lava
hot and helped it spread out more, too. Oh, and one final note: under international
agreement, surface features on Venus— mountains, plains, craters, and so on—are
all named after women or goddesses of various cultures. This is an homage to the planet
itself being named after a goddess, of course, but also? It’s just cool. Today you learned that Venus is the same size
as Earth, but with a super thick atmosphere. A runaway greenhouse effect makes it the hottest
planet in the solar system. It has the slowest rotation of any planet, and spins backwards.
Tremendous volcanic activity ages ago resurfaced the entire planet, and it still may be active
today. Crash Course Astronomy is produced in association
with PBS Digital Studios. Head to their channel to discover more awesome viceos. This episode
was written by me, Phil Plait. The script was edited by Blake de Pastino, and our consultant
is Dr. Michelle Thaller. It was co-directed by Nicholas Jenkins and Michael Aranda, edited by Nicole
Sweeney, and the graphics team is Thought Café.
almost every planet has naming conventions like that, if i remember there is a region of mars where everything is named after scientists, another region where everything is named after philosophers.
this could lead to a lot of confusing place names in the future, we already have issues here on earth, by adding more its going to get worse, at least there will be a lot of funny misunderstandings in the future.
. . . except for Maxwell Montes, the tallest mountain on Venus, named after physicist James Clerk Maxwell.
Because of course the tallest, girthiest feature of Venus is named after a man ;)
Astronomy fun fact : the moons of Uranus are named after characters from Shakespeare's plays !
Huh. That's hot as hell.
The Crash Course Astronomy series is fantastic.