Because Physics! The origin of life on Earth

Space.com reports on a new theory about how “abiogenesis” (the transition of ordinary stuff like water and dirt containing molecules into “life”) might have started on Earth. Previous theories suggest that the first self-replicating life form probably came to be randomly in some kind of primordial soup. But some interesting new theories have emerged that suggest that this process wasn’t random at all and was actually bound to happen because of two special thermodynamics concepts known as “entropy” and “equilibrium”.

Entropy is defined as “lack of order or  predictability; [a] gradual decline into disorder”. A system in a high state of entropy is in an “energetic” state, with atoms that are vibrating, excited, and interacting a lot. The opposite of Entropy is Equilibrium; at absolute zero (minus 273.15 degrees Celsius), atoms stop moving altogether, and are in a state known as a “cold death”. As time goes on, unless gravity takes over, all physical systems are eventually doomed to reach a state of equilibrium and the Universe will become cold and lifeless.

“Stop ranting you fat nerd!” I hear you cry. Here’s the tie-in: the new theory suggests that life might be the eventual outcome of the laws of thermodynamics because self-replication (or reproduction) – a key feature of all known life – “is also a very efficient way of … increasing entropy in [a] system.” Bio-molecular systems are designed to keep entropy going, just like your own body is always trying to maintain a constant temperature of 37 degrees Celsius. So the theory is suggesting that physics likes entropy so its rules are designed to keep it going. So here you is!

The Space.com article proposes “a cooling cup of coffee left on a desk”, which instead of going cold, uses chemical reactions to “self-organise” itself to keep a center pocket of liquid within the cup warm. It is this physical self-organisation that could lead to reproduction for the sake of maintaining entropy. “Some physical systems may be sufficiently out of equilibrium that they “self-organize” to make best use of an external energy source, triggering interesting self-sustaining chemical reactions that prevent the system from reaching thermodynamic equilibrium and thus maintaining an out-of-equilibrium state.” And a system replicating itself leads to lots of individual warm spots.

If this theory were to be somehow proven, it would not only solve the mystery of how life got started on our planet, but it would have huge implications for search for extraterrestrial life. Since the laws of physics are thought to be the same everywhere in the Universe, life would have popped up where there are any “physical systems may be sufficiently out of equilibrium” to “self-organize” and reproduce. Now, that’s a lot of aliens!

 

 

 

 

How to see Impossible Colours

If you’re a bit like me and you’re interested in chasing transcendental and other worldly experiences that are non-chemically induced, you might be interested in the following news.

Turns out our brains are actually capable of seeing colours that nature hasn’t shown us yet.

Ever wondered what a blue-ish yellow looks like? If you answered “green”, you are wrong! You can see what blue-ish yellow by staring at the blue and yellow image in this post, and letting your eyes cross so that both crosses appear on top of each other.

There are infact lots of colours that you haven’t seen yet. One is called “Stygian Blue” which is simultaneously both blue and black, and “Self Luminous Red” which is simultaneously red and brighter than white.

These are examples of colours that our eyes are incapable of seeing, but that can appear in our visual cortex by mixing signals between our two eyes. The following Wikipedia article contains some cool tricks that allow you to see them.