The nature of, the size, the shape and the duration of our Universe has been speculated and debated upon ever since humans gazed in wonder at the night sky. Though ideas have waxed and waned, and though modern cosmology is more focused than ever on actual observations, speculations, well that’s still the case today. My take, albeit slightly more philosophically inclined, is that our Universe is just part of an overall infinite in space and infinite in duration cosmos.
In the infinite beginning there was something rather than pure nothing – a finite amount of something in an infinite void of nothingness. This scenario eliminates the philosophical quandary of what’s beyond the boundary - that only other alternative. This eliminates the philosophical quandary of how much stuff there is. An infinite amount of stuff doesn’t leave you much elbow room.
In the infinite beginning, well there was no beginning; there can ever be an end. No Alpha – no Omega. This eliminates the philosophical quandary of what comes before the ‘beginning’ and what comes after ‘the end’.
Okay, having postulated an infinite cosmos in space and in duration, well, other certain and not so philosophical issues come to the fore. If they can be addressed, well that’s all to the good. If not, well it’s back to the drawing board.
I’ll start with…
Olber’s Paradox
The night sky should be as bright as the daytime sky since in whatever direction you look, sooner or later you should see a star or galaxy that’s in your line of sight. That’s Olber’s Paradox because the night-time sky isn’t as bright as the daytime sky. One resolution is that our observable Universe is finite and there are only a finite number of stars and galaxies and thus, there will be lines of sight that do not intersect with an object that’s emitting light.
But what if the cosmos is infinite in size and has existed for an infinite amount of time? Does that resurrect or reinstate the validity or viability of Olber’s Paradox? Not necessarily.
Why is there something rather than nothing? That’s been a prime philosophical question that has raged for eons. But, on reflection, overall, there is a great deal more of nothing than of something. If everything was something, it would be rather difficult to move. There would be no elbow room. In other words, just because the cosmos is infinite in duration and in volume doesn’t mean that there has to be an infinite amount of something within.
Let’s say that pure nothing is a perfect vacuum. Then something within that nothing makes for an imperfect vacuum. One could image a cosmos so dilute that there could literally be gaps of pure nothingness between the bits and pieces of something. Or, one could imagine a universe that contained just one final cosmic Black Hole that had over all the infinite eons gobbled up everything else that had been a something within the cosmos, and thus 99.99999% of that cosmos would contain absolutely nothing.
That aside…
Stars, like people, are born, and thus their light may not have yet reached us.
Stars, like people, die, and thus their light has ceased to reach us. It has all now passed by.
In an infinite space, stars maybe so far distant that by the time their light reaches us, it’s so diluted or spread out that only one photon per hour hits the eye and that threshold is too low to stimulate the optic nerve and thus register.
Ever present cosmic Black Holes have gobbled up a lot of the radiation that is emitted and reflected. In fact, in a cosmos that’s infinite, why haven’t those astronomical Black Holes sucked up everything that can be sucked up thus terminating any and all evolving universes within that cosmos? Well the answer is Hawking radiation which theoretically predicts, on pretty substantial grounds, that eventually Black Holes will radiate away their mass. Once input is less than Hawking radiation output, the Black Hole will slowly, ever so slowly, radiate away, giving back to the cosmos what it once took away. There will be more on the significance of that shortly.
Entropy and Cosmic Recycling
Another concept that needs addressing is entropy or the Second Law of Thermodynamics, otherwise known as the ‘arrow of time’ or sometimes as ‘time’s arrow’. If one considers an infinite universe to be a closed box or closed system, then over time, and we have an infinite amount of it, that closed box should reach absolute equilibrium and no further cosmic evolution would be possible. There would be a maximum amount of disorder, and there would be no further energy available to reverse that level of disorder.
It should be noted from the outset that in any closed box or closed system, entropy rules. Things will go from a state of order to a state of disorder without outside interference, that being an external source of energy to reverse the natural trend. The commonly cited example is if you have a closed box (the kitchen), and you turn off the fridge, the kitchen and the fridge will eventually reach absolute equilibrium, the same temperature. The kitchen warms up the fridge; the fridge cools down the kitchen, until both are at the same temperature – maximum disorder. It takes an outside energy source – electricity – to keep the fridge colder than the kitchen and thus in a state is disequilibrium or a state where entropy has not been maximalized. Trouble is, once energy is evenly spread out throughout a closed system (like the fridge in the kitchen), no matter how much of it there is, it’s useless in terms of doing useful things – like initiating change.
Another example: Your own body is a closed system. Your body’s energy is in equilibrium. You are at 98.6 degrees Fahrenheit from head to toe. Within that state of affairs, your body can not do useful things. Fortunately, there’s a larger closed system that your body is a part of (like the fridge is part of the kitchen) that enables you to disrupt your body’s equilibrium and thus provide the means for your body to initiate change. Your outside energy source is food, which is good since once you invoke that larger closed system that contains you, that larger system absorbs your body heat that gets radiated away into it. So the fridge needs outside energy to replenish its supply of cold; you need energy to replenish your body heat and to provide the ways and means to keep you keeping on. Of course as we all know, that’s just postponing the inevitable. Sooner or later the fridge breaks down with wear; ditto you too. But in the meantime, and for a little while, you can keep your body’s entropy under control.
Now any attempt to tunnel around various laws, principles and relationships of physics might be in vain, but not a total waste of time. The laws, principles and relationships of physics are constantly being refined, even overturned as in Einstein refined Newton
Still, in an infinite cosmos, a cosmos that keeps on keeping on, there probably needs to be a way to go from a state of disorder (high entropy) back to a state of order (low entropy).
To be continued…
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