Thought of the Week: Dark Universe

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Silesian Planetaruim (not the one we went to).

Silesian Planetaruim (not the one we went to).

I was at a planetarium this weekend with Little Satis and my family, and we watched a wonderful short presentation on dark matter narrated by the smooth-voiced Neil deGrasse Tyson. (Mrs. Satis actually dozed off because of his voice.) I’m pretty partial to anything space related, and although I didn’t learn any astounding, never-knew-that-before statistics, it re-awoke the old fascination in me about the origins of the universe, and space in general.

One of the revelations of the presentation was the fact that all of the matter and energy (stars, planets, heat, light, etc.) that we can observe represents about 5% of the total contents of the universe, calculable by the gravitational effects of dark matter on the rotation of galaxies and the expansion effects of dark energy on the universe as a whole. But things like that make me wonder, because there are a number of far-flung theories out there regarding the nature of the universe as a whole, and as an absolute lay-person I sometimes feel like I can almost piece it all together, if only I was a little brighter.


This would mean that every black hole in our universe is in fact a lower-dimension universe in and of itself…


Dak matter strings.

Dak matter strings.

String theory (to my limited understanding) essentially postulates that all particles in the known universe are actually space-time representations of ‘strings’ that permeate the entire universe. What this essentially means is that this hydrogen atom that I see spinning away from me is actually part of an infinite string, pulled along by the expansion of the universe itself. If such is the case, then it makes me wonder whether ‘dark energy’ is required to explain the expansion of the universe. After all, energy is required to explain the kinetic movement of objects in a three-dimensional space. However, if the movement of objects on the largest of scales is actually the act of the universe dragging them along, no energy, as I see it, is required.

It does still raise the question of why the universe is expanding at all, but what if that expansion is purely relative? For example, it’s been calculated that as the universe expands, it cools. Therefore, it was hotter in the past than in the present. But if our existence in the universe is dependent on the relative conditions at the moment in time in which we exist, then isn’t it just as likely that earlier in the universe’s life, the relative heat was no greater than it is now? In other words, to an observer ten billion years ago, the universe was no hotter than it is now, although for that observer, the universe was still hotter in the past and cooler in the future.

Does that make any sense? If it does, it means there may be no such thing as ‘dark energy’ at all, since the movement of distant galaxies and the temperature of the universe as a whole is entirely relative to the observer.

Super neat image of a black hole (not real).

Super neat image of a black hole (not real).

Another theory that I quite like the idea of is that the entire universe is actually the interior of a higher-dimension black hole. This is fun, because it explains the big bang as the point of creation of that singularity, and the expansion of the universe as the continued accumulation of matter and energy from that black hole’s event horizon. It could even explain the increasing rate of the universe’s expansion by the black hole going through a period of increased accretion, perhaps because it’s moving through a space of higher-density matter/energy in that higher-dimension universe.

This would also mean that every black hole in our universe is in fact a lower-dimensional universe in and of itself, which is an exciting thought. It aligns the thought that one can’t ask the question “what is outside the universe” because the universe is the entirety of existence with the thought that nothing can escape a black hole once in it in the first place. It makes me wonder what forms of life might exist inside black holes that we would never know of…

So that only leaves dark matter, which…well, I don’t have time or inclination to attack that now. This essay will have to stand as-is for the moment. Still – it’s exciting stuff. What do you think of the origins of the universe and the fate of its continued expansion?

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Thought of the Week: The Real Final Frontier

Shot from 1953's The War of the Worlds.

Shot from 1953’s The War of the Worlds.

Having recently watched Star Trek Into Darkness (and thoroughly enjoyed it), it nonetheless brought to mind the nature of the universe at large, and how stunningly wrong science fiction gets it all the time. I’m not talking about warp drives and ion engines, but some of the less obvious, background kind of stuff. Lately (actually, for some time, come to think of it) science fiction movies have been bombarding us with spectacular visual effects. The War of the Worlds from 1953 showed us groundbreaking special effects, combining matt painting, models and live action footage. Independence Day marked one of the first mass uses of CGI to create the majority of the movie’s special effects. Green Lantern was essentially computer animation with a face in it.

But in striving to wow us with ever more impressive visual effects, the writers and filmmakers have had to take liberties with the truths of the universe. In Star Trek II: The Wrath of Khan (still of the best Star Trek movies in my opinion), the Enterprise manages to ambush Khan by entering a nebula, whose gaseous particles block all of their sensors. Nebulae, of course, are real. Here’s one:

The Crab Nebula, about 6,500 light years away.

The Crab Nebula, about 6,500 light years away.

And Star Trek‘s:

The Mutara Nebula from Star Trek II: The Wrath of Khan

The Mutara Nebula from Star Trek II: The Wrath of Khan

The ships enter the nebula as though it’s a kind of cloud in space. Here’s the problem: the individual particles in a nebula are kind of far apart: about 100 or so in each cubic centimeter (air, by contrast, has around 1,000,000,000,000,000,000 particles per cubic centimeter). A nebula wouldn’t really look like a nebula; it would look sort of…empty. They’re also somewhat large for a spaceship to ‘duck’ into; the Crab Nebula above is about 11 lightyears across.

What strikes me about these images, however, is their visual impressiveness. For all the technical wizardry of ILM and Weta and all the other companies out there, nothing quite compares to the unimaginable marvels of the natural universe. Here’s Saturn:

An incredible image of Saturn and its largest moon, Titan.

An incredible image of Saturn and its largest moon, Titan.

It is one of the most stunning and awe-inspiring images I’ve ever seen. It almost doesn’t look real, and its reality is therein. Nothing we could imagine or invent could compare. What you’re seeing is hundreds of millions of miles away from us, and thousands of miles from the camera that took the picture. Nothing can even come close to encompassing the incredible scale of these stellar objects.

Here’s a shot of Enceladus, another of Saturn’s moons:

Water geysers erupting from Enceladus's south pole.

Water geysers erupting from Enceladus’s south pole.

Those small, gassy bursts are actually jets of water (yes, water – on another freaking planet!). Each one is nearly three hundred miles high. There is significant evidence that Enceladus hosts liquid water beneath its surface, which is one of the primary, basic requirements for life. Traces of potential organic matter have also been detected, increasing the possibilities. Wouldn’t it be simply astounding if there was actually life – real life – on another planet in our solar system?

And to finish, here is one of the most spectacular sights you’ll ever see:

The stellar spire inside the Eagle Nebula. I've rotated it on its side, but would be seen vertically from Earth.

The stellar spire inside the Eagle Nebula. I’ve rotated it on its side, but would be seen vertically from Earth.

These are not paintings, or computer graphics; these are real, genuine photographs of the absolutely insane and indescribably beautiful things that fill our universe. Their size is incomprehensible, galaxies that span trillions of miles, stars whose light has travelled for a billion years to reach us, and even evidence of real, genuine plants orbiting other stars. I will continue to enjoy my Star Trek, but I will never be satisfied with their tenuous links to reality, or their inability to even come close to mimicking the wonders of the universe.

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