Seriously, Venus is the worst. The global temperature is as hot as an oven, the atmospheric pressure is 90 times Earth, and it rains sulfuric acid. Every part of the surface of Venus would kill you dead in moments. But how did it get that way?

Let's push Venus into the Sun and be done with that terrible place. Its proximity is lowering our real estate values and who knows what sort of interstellar monstrosities are going to set up shop there, and be constantly knocking on our door to borrow the mower, or a cup or sugar, or sneak into our yard at night and eat all our dolphins.


You might argue that Venus is worth saving because it's located within the Solar System's habitable zone, that special place where water could exist in a liquid state on the surface. But we're pretty sure it doesn't have any liquid water. Venus may have been better in the past, but clearly it started hanging out with the wrong crowd, taking a bad turn down a dark road leading it to its current state of disrepair.

Could Venus have been better in the past? And how did it go so wrong? In many ways, Venus is a twin of the Earth. It's almost the same size and mass as the Earth, and it's made up of roughly the same elements. And if you stood on the surface of Venus, in the brief moments before you evacuated your bowels and died horribly, you'd notice the gravity feels pretty similar.

In the ancient past, the Sun was dimmer and cooler than it is now. Cool enough that Venus was similar to Earth with rivers, lakes and oceans. NASA's Pioneer spacecraft probed beneath the planet's thick clouds and revealed that there was once liquid water on the surface of Venus. And with liquid water, there could have been life on the surface and in those oceans.


Here's where Venus went wrong. It's about a third closer to the Sun than Earth, and gets roughly double the solar radiation. The Sun has been slowly heating up over the millions and billions of years. At some point, the planet reached a tipping point, where the water on the surface of Venus completely evaporated into the atmosphere.

Water vapor is a powerful greenhouse gas, and this only increased the global temperature, creating a runaway greenhouse effect on Venus. The ultraviolet light from the Sun split apart the water vapor into oxygen and hydrogen. The hydrogen was light enough to escape the atmosphere of Venus into space, while the oxygen recombined with carbon to form the thick carbon dioxide atmosphere we see today. Without that hydrogen, Venus' water is never coming back.

Are you worried about our changing climate doing that here? Don't panic. The amount of carbon dioxide released into the atmosphere of Venus is incomprehensible. According to the IPCC, the folks studying global warming, human activities have no chance of unleashing Venus-scale global warming. We'll just have the regular old, really awful global warming. So, it's okay to panic a bit, but do it in the productive way that results in your driving your car less.


The Sun is still slowly heating up. And in a billion years or so, temperatures here will get hot enough to boil the oceans away. And then, Earth and Venus will be twins again and then we can push them both into the Sun.

I know, I said the words "climate change". Feel free to have an argument in the comments below, but play nice and bring science.

This post by Fraser Cain originally appeared at Universe Today. It has been republished with permission.