Thursday, September 29, 2016

The Paradox

 
This is an effort to show what we see in the spiral galaxy, the Milky Way, we call home.
 
As many stars as there are in our galaxy, 100 – 400 billion--BILLION!, there are roughly an equal number of galaxies--GALAXIES!-- in the observable universe. So for every star in the colossal Milky Way, there’s a whole galaxy out there. All together, that comes out to the typically quoted range of between 10^22 and 10^24 total stars, which means that for every grain of sand on Earth, there are 10,000 stars out there.

The science world isn’t in total agreement about what percentage of those stars are “sun-like” (similar in size, temperature, and luminosity)—opinions typically range from 5% to 20%. Going with the most conservative side of that (5%), and the lower end for the number of total stars (10^22), gives us 500 quintillion, or 500 billion billion sun-like stars.

There’s also a debate over what percentage of those sun-like stars might be orbited by an Earth-like planet (one with similar temperature conditions that could have liquid water and potentially support life similar to that on Earth). Some say it’s as high as 50%, but let’s go with the more conservative 22% that came out of a recent PNAS study. That suggests that there’s a potentially-habitable Earth-like planet orbiting at least 1% of the total stars in the universe—a total of 100 billion billion Earth-like planets.
So there are 100 Earth-like planets for every grain of sand in the world. 
 
This is all wonderfully speculative. How do these people estimate the number of earth-friendly suns and life-friendly planets?

But, continuing the speculation, if 1% of Earth-like planets develop life, that would mean there were 10 quadrillion, or 10 million billion intelligent civilizations in the observable universe.

Moving back to just our galaxy, and doing the same math on the lowest estimate for stars in the Milky Way (100 billion), we’d estimate that there are 1 billion Earth-like planets and 100,000 intelligent civilizations in our galaxy.

As far as I can see, sending out probes and signals into this crowded universe is just looking for trouble.

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