Astronomers have a mind-blowing new theory: that there are 17 billion Earth-sized planets in our galaxy. They don't yet know how many of these worlds are in habitable zones, but the implications of this discovery are amazing. So much that some claim the "quest for a twin Earth is heating up."
Simply put: If there are 17 billion Earth-sized worlds in our galaxy, it's clear that the Universe is bubbling with life.
The team, lead by Francois Fressin of the Harvard-Smithsonian Center for Astrophysics, used the latest data from NASA's Kepler mission to find that one in six stars have "a planet 0.8 - 1.25 times the size of Earth in an orbit of 85 days or less."
Of course, before we start with this alien life math wankfest, let's answer a fundamental question: why are Earth-sized planets important? The answer is simple: Earth is the only habitable planet that we know of. Scientists assume that, given the same set of conditions—orbit time, distance from sun, gravity and composition—life will develop in other star systems just like it developed in Earth. Simplifying (and without knowing yet why this is exactly), planets like Mars weren't big enough and planets like Venus were too close.
Now, let's be really conservative and assume that only one percent of those planets is in its star system's habitable zone. That's 170 million Earth-sized worlds that may harbor some kind of life.
Let's keep being skeptical. Let's say that only one percent of those planets have actually developed actual life. That leaves us with 1,700,000 worlds bubbling with lifeforms.
It's most probable that these worlds would have a variety of organisms but, continuing to be pessimistic, let's suppose that only one percent of those Earth-sized worlds have developed complex animals. That's 17,000 alternative Earths full of three-headed monkeys or whatever.
Finally, let's presume that one percent of those planets' animals have evolved so much that they have developed a civilization similar to ours. That's 170 worlds, people. 170 worlds is one amazing number, at least for me.
Life in the Universe
Now, if that's not amazing to you, look at the number of galaxies in the Universe. The most recent computer simulation puts that number at 500 billion. Of course, not all galaxies have the same numbers of stars, but since some are bigger than ours and some are smaller that ours, let's just assume that it all evens out. Wait. Let's be galactic jerks here and take 100 billion galaxies out of the total number. 400 billion galaxies, each of them with about 170 civilized worlds.
That's 68,000 billion planets with civilizations on them.
Read that number a couple of times.
Of course, the Universe is an awfully big place. So big that we may never encounter another civilization. But that's a minor point. The fact is that, even being conservative, even if we further cut that number drastically, even if we assume much lower percentages, even if we think that some civilizations may have been destroyed by asteroids or wars or some other kind of disaster—even if we just assume that, out of those 68,000 civilizations, only one percent have actually survived and thrived, that leaves us with 680 billion civilizations in the Universe.
Still too optimist for you? Destroy 99% of those with Death Star lasers. That's still 6.8 billion civilizations.
Going one step further, and think about the chances of meeting one of these civilizations. Let's presume that only one percent of the 6.8 billion have mastered warp drives—Not a crazy possibility! That's 6.8 million civilizations with Entreprises.