Are there really aliens? Fermi paradox and Drake equation

When we look toward the sky and contemplate this vast universe in which we live. We often have one of the biggest questions of all: Are we the only intelligent creatures in the universe? Or are there intelligent aliens other than us living with us? These questions have been one of the most puzzling questions for scientists and the general public for a long time. Therefore, we will present to you one of the most important theories and hypotheses that attempted to explain this, namely the Fermi Paradox and the Drake Equation.

The Fermi Paradox asks why aliens have never visited Earth, while the Drake Equation attempts to estimate the number of intelligent civilizations in our galaxy. Both concepts involve a lot of uncertainty, because when it comes to extraterrestrial life, there is a lot we don’t know.

Continue reading to learn more about the Fermi Paradox, the Drake Equation, and whether there are other creatures living with us in this universe!

ads

What is the Fermi paradox?

The Fermi Paradox can be defined as the high probability of intelligent life existing anywhere in the universe other than Earth, even though there is no evidence to prove its existence anywhere else, which is why it is called a paradox. Fermi Paradox describes the apparent contradiction between why there is no evidence of extraterrestrial life, despite the fact that it should logically have been discovered by now.

The Fermi Paradox was first studied by Nobel Prize-winning physicist Enrico Fermi, sometimes known as the “architect of the atomic bomb” who studied and researched the existence of extraterrestrial civilization. He put forward the following hypotheses:

  • There are billions of stars like the Sun, which is a billion years older than the solar system.
  • There are Earth-like planets that may have developed intelligent life.
  • These intelligent aliens may have evolved into interstellar travel.

Explanations of the Fermi Paradox

There are a number of explanations and suggestions for the Fermi Paradox. What’s most obvious, and most likely, is that we simply haven’t searched hard enough to find other life, and interstellar travel is difficult. The first planets outside our solar system were not discovered until the 1990s. This means that we have barely begun to study other worlds.

For example, we have not yet been able to find many planets that are exactly like Earth and revolve around stars like our Sun, but it is possible that upcoming telescopes will be able to make such discoveries in the next decade or two.

Even so, the distances between star systems are enormous, making travel between them difficult. The closest star system to us is Alpha Centauri, located four light-years away. By comparison, the distance from Earth to Neptune is 0.0005 light-years, a journey that would take decades under current technology.

Maybe the aliens decided never to visit us, or maybe they did so long ago without leaving a trace! Or perhaps the chances of two intelligent species being in relatively close proximity to each other in the vastness of space are very slim!

The bleakest explanation is that we are alone in the universe. Life, like that found on Earth, is so unlikely to have arisen that our world was the only world in which this happened.

Drake equation

Drake equation

Similar to Fermi’s estimates, a more detailed equation, developed in 1961 by American astronomer Frank Drake, sparked conversation at the inaugural Search for Extraterrestrial Intelligence (SETI) meeting.

The equation indicates that the number of intelligent civilizations nearby can be based on a set of statistics. These include the number of planets supporting life and the chances that life might develop the ability and desire to transmit information that could cover vast distances in a reasonable amount of time.

The Drake Equation and the Fermi Paradox are related, as the equation was formulated to systematically examine the existence of alien life. The equation is as follows:

N = R* x ?p x ne x ?1 x ?i x ?c x L

N: The number of civilizations with which humans have been able to communicate.

R*: The rate of star formation in the Milky Way galaxy.

fp: proportion of stars supporting planets.

ne: the average number of planets that can support life for each star that has a planet.

f1: The fraction of planets that “can” support life and that actually develop life.

?i = Proportion of planets that have developed intelligent life, and thus intelligent civilisations.

FC: Part of a civilization that signals its existence.

L: The time period for releasing such signals.

By including all of these factors into the equation, you may be able to figure out how many other intelligent civilizations exist in the universe. However, there are still a number of key variables in the equation that are not yet known. This means that we cannot yet come up with a possible number of other types of intelligent life.

Are there really aliens?

In the half-century since the Fermi Paradox was first proposed, we have learned a lot about the diversity of exoplanets and their stars. However, we are still far from being able to make accurate judgments about the evolution of life on worlds other than Earth. Determine whether there are intelligent human-like aliens in the universe or whether we alone inhabit this universe.

Read also / One universe is suitable for life.. Why did Stephen Hawking reject the theory of multiple universes?