Is the universe a graveyard? This theory suggests humanity may be alone.

Here’s an equation, and a rather distressing one at that: N = R*× f× n× f1 × f× fc × L. It’s the Drake equation, and it describes the number of alien civilizations in our galaxy with whom we might be able to communicate. Its terms correspond to values such as the fraction of stars with planets, the fraction of planets on which life could emerge, the fraction of planets that can support intelligent life, and so on. Using conservative estimates, the minimum result of this equation is 20. There ought to be 20 intelligent alien civilizations in the Milky Way that we can contact and who can contact us. But there aren’t any.


The Drake equation is an example of a broader issue in the scientific community—considering the sheer size of the universe and our knowledge that intelligence life has evolved at least once, there should be evidence for alien life. This is generally referred to as the Fermi paradox, after the physicist Enrico Fermi who first examined the contradiction between high probability of alien civilizations and their apparent absence. Fermi summed this up rather succinctly when he asked, “Where is everybody”?

But maybe this was the wrong question. A better question, albeit a more troubling one, might be “What happened to everybody?” Unlike asking where life exists in the universe, there’s a clearer potential answer to this question: the Great Filter.

Why the universe is empty

The Very Large Array in New Mexico consists of 27 radio dishes designed to capture information from cosmic phenomena, like galactic collisions, the birth of stars, and others. It was also the point of the first contact form the movie “Contact” (ROBYN BECK/AFP/Getty Images)

Alien life is likely, but there is none that we can see. Therefore, it could be the case that somewhere along the trajectory of life’s development, there is a massive and common challenge that ends alien life before it becomes intelligent enough and widespread enough for us to see—a great filter.

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Here’s an equation, and a rather distressing one at that: N = R*× f× n× f1 × f× fc × L. It’s the Drake equation, and it describes the number of alien civilizations in our galaxy with whom we might be able to communicate. Its terms correspond to values such as the fraction of stars with planets, the fraction of planets on which life could emerge, the fraction of planets that can support intelligent life, and so on. Using conservative estimates, the minimum result of this equation is 20. There ought to be 20 intelligent alien civilizations in the Milky Way that we can contact and who can contact us. But there aren’t any.


The Drake equation is an example of a broader issue in the scientific community—considering the sheer size of the universe and our knowledge that intelligence life has evolved at least once, there should be evidence for alien life. This is generally referred to as the Fermi paradox, after the physicist Enrico Fermi who first examined the contradiction between high probability of alien civilizations and their apparent absence. Fermi summed this up rather succinctly when he asked, “Where is everybody”?

But maybe this was the wrong question. A better question, albeit a more troubling one, might be “What happened to everybody?” Unlike asking where life exists in the universe, there’s a clearer potential answer to this question: the Great Filter.

This filter could take many forms. It could be that having a planet in the Goldilocks’ zone—the narrow band around a star where it is neither too hot nor too cold for life to exist—and having that planet contain organic molecules capable of accumulating into life is extremely unlikely. We’ve observed plenty of planets in the Goldilock’s zone of different stars (there’s estimated to be 40 billion in the Milky Way), but maybe the conditions still aren’t right there for life to exist.

The Great Filter could occur at the very earliest stages of life. When you were in high school bio, you might have the refrain drilled into your head “mitochondria are the powerhouse of the cell.” I certainly did. However, mitochondria were at one point a separate bacteria living its own existence. At some point on Earth, a single-celled organism tried to eat one of these bacteria, except instead of being digested, the bacterium teamed up with the cell, producing extra energy that enabled the cell to develop in ways leading to higher forms of life. An event like this might be so unlikely that it’s only happened once in the Milky Way.