Spelunking the Universe
Posts tagged Our Amazing Earth
Rico Examines “Evolution and Economics”
1 year ago
by Rico Penguin
in General
So I’ve been reading Richard Dawkin’s “The Greatest Show on Earth”, interestingly for a guy who is constantly described as condescending and downright mean his book thus far has been really well thought out and pleasant. He’s barely mentioned faith at all and seemed to make an effort to separate faithful from “those people” (Creationists/Young Earthers). He seems genuinely concerned with people trying to discount Physics and about a half dozen other sciences as being “other forms of faith”. But I digress, that is not what this post is about 
.
In the book Dawkin’s mentions something about rats, how through selective breeding in a matter of 30 or so generations (or even quite a bit less) you can generate rats who have far better dental than those not selected specifically to enhance those traits. Likewise you can make rats who get really crappy teeth fairly quickly. He mentions in this chapter, “Why if man can make a rat with awesome teeth can nature not? One would assume that long surviving healthy teeth would do nothing but enhance the survival rates of the hose animal.” Which was interestingly timed because I was thinking the same thing.
I had been wondering about all the monsters that folks create for movies, these apex predators with amazing senses, huge muscular structures, good bones, and many cases wings because obviously flying is badass. One would assume that these creatures should be inevitable in life, likewise the question arises even on a smaller scale, why if Human’s have gotten these fairly awesome brains have other animals not jumped on the bandwagon? They are sexy organic computers that have helped us to create super cool things. One would think that any animal would benefit, much like the rats from the fancy teeth.
To this question, that he assumed (rightly) would form from the discussion of that rat experiment, he responded with an Economics quote that I’ll paraphrase “There is no such thing as a free lunch.” The Calcium necessary for those teeth must come from somewhere, in lab rats it is simply supplemented with a seemingly endless supply of nutrient rich food. But in the wild the Rat would have to get that calcium from somewhere. It would be taking it away from the rest of it’s bone structure, or in females from the milk production, or any other process in the body that needs that Calcium. In the end, having slightly worse teeth for the wild rats might be beneficial because the calcium they’d have used in those teeth can then be used for other operations in the body that may actually extend their life even further.
Which brings me back to the human brain thing. I’ve read, long before this book, about the reason why humans are so gung-ho on fat and high calorie diets. Obviously being warm blooded is a big part of it, but beyond being walking waste machines (we do burn through energy really fast), we also have incredibly nutrient hungry brains. These big grey batches of yogurt are very big on the high fat high calorie diets that we take in, it makes them happier than a clam (both of which I don’t think actually feel happy, but you get my point). At a point in the history of our particular branch of the animal Kingdom there was a period of very high fertility in the land where our ancestors lived. This provided them with the resources they needed for a mutation of the brain to actually work, before that point HAD the event occurred the animal carrying that new brain would have not had the food supply to support the new infrastructure and would have likely died off.
It’s hardly a give-in, by stuffing animals full of vitamins and minerals for centuries we have no certainty that they’d suddenly get awesome brains and be able to help us fight the inevitable ape uprising. However it makes me wonder how many times in the past a really neat strain of an animal has arisen and died off because it couldn’t support the new workings of its body. Requiring perhaps more vitamin C than was available, or Vitamin D, or Calcium, or Iron. The only thing killing off it’s otherwise (subjectively) superior body was the environment not supplying it with the funds (so to speak) it needed to succeed.
We, long ago, hit a point where we begin a cyclical system of altering our environment to meet the ever (however slowly) changing needs of our bodies. We’ve reached the point now that any mutation we have can likely be met with environmental changes to help support it, providing us with an infinitely many versions of humans that can survive…at least hypothetically.
It’s an amazing moment personally, wondering just what has been lost or what could be gained in the animal kingdom given a sustained period of fruitfulness, however I find that the odds of this happening with humans around is quite a bit lower than it once was (we’ll utterly consume any place that begins to thrive). At any rate, it’s a neat bit of info. If anyone was ever wondering why animals don’t get X, the above is the basic reasoning. Every mutation requires resources and if those resources are taken away from even (for the moment) more important bodily functions that mutation will fail. It is only the mutations that result in a slightly longer lifespan (and thusly more chances to breed) that lead onto new strains of the animal, and those strains will only survive for as long as their needs are met by the environment. They could still vanish if the environment suddenly changes and their “inferior” cousins could end up returning to power.
Bah…I’ll end up bantering on about how neat this is to me. So I’ll just leave it at that. More to come I’m sure.
Rico Examines “The Beauty of Mathematics.”
1 year ago
by Rico Penguin
in General
I am a huge fan of numbers. I love statistics dearly and enjoy any sort of comparative diagram. Especially when dealing on the astronomical scale, the reality of how small I truly am is very exciting and opens doors in the mind that are difficult to get ajar. They never seem to open wide but just trying is such a treat.
Mathematics, is at its heart, the only subjective truth in the universe. At least that I know of so far, it is this subjectivity that gives it beauty to me. It is difficult to tarnish math, one of my favorite quotes about this says “Statistics don’t lie, People do.” Math is a sanctuary, a land one can travel that is not tainted by morality, or belief, it is something of solid true objective meaning. Math will never betray you and as long as you are willing to learn it will open a seemingly infinite number of doors. Man…back to that door metaphor.
Admittedly this is not really an examination as much as it is a love letter to math. Which I believe is a bit ironic because I am not a stellar mathematician. I love a good excel sheet, I enjoy calculating things in my head, and I am all aflutter when I see a new time to make a complex formula. But I am, perhaps hypocritically so, not good at the highest levels of mathematics. This creates a deeper wonder and desire to learn it however, to see numbers in their full beauty.
Astrophysics and Fractals are two of my favorite examples of mathematics. The first because as I had mentioned before astronomically large numbers excite me. Visually let me grab a picture:
This image is of an “Earth Sized Hole” that was left on Jupiter after a Meteor Impact. The entire Earth, this massive swath of rock that we call home. The surface that more than 6 billion people all live upon. Millenia of documented human history have transpired on. All of this is but a mere spec on a slice of Jupiter. The staggering difference in sizes, those massive differences in numbers. That, I believe, is true beauty.
To continue on this Earth Jupiter topic, let me grab a few other numbers. I weight about 135 lbs on Earth. If I was on Jupiter I would weigh 319.5 lbs! Gravity itself requires an intense amount of matter for you to feel the results (just think with the entire size of the Earth it is merely holding you against the surface, not even crushing you to a pulp). That said, Jupiter has enough extra mass to more than double my weight! 2.3x heavier if you were curious (roughly). Speaking of mass, Jupiter contains 300 times the mass of Earth. If that doesn’t metaphorically crap your pants I honestly don’t know what will. Just try to grasp that, all the mass of earth replicated 300 times! I can’t even properly visualize the full surface area of my city, let alone my state, or my continent, or the Moon or Earth, and here is an object that dwarfs us to a point of obscurity. The diameter of Jupiter is insane as well being over ten times that of Earth. I would have a 30 foot wide waist if that were the case, which would make it very difficult to fit through…doors. Unless I stood sideways, however our hallway is only about 10 feet across. Which raises more issues.
I’ve shown before the pale blue dot, an image of the Earth where we are a single pixel on a massive picture of space. A single spec of light emitting from a vast unknown. When thinking about Jupter, and how it dwarfs our size. Even Jupiter is but a child in a room of adults. Our sun could swallow Jupiter hundreds of times over (an understatement).
So here we are. Examining a marble, that marble an object 300 times the size of Earth. That Earth ~1,260,000,000,000,000,000,000 times larger than the average person. These numbers all becoming awash in our minds. Or at the very least mine. These things are astounding, nearly unimaginable (I try to stray from impossibilities), yet numbers can swallow up these things and produce manageable data. This is the ultimate power of subjectivity, the ultimate beauty of mathematics, and one of the reasons I get a cognitive ‘boner’ every time I’m presented with data. It also gives me another reason to remind people why they are so inconsequential in size and why that is not a bad thing .
Update: I would be remiss if I didn’t plug a few of my Fractal Artworks while discussing the beauty of Math:
Coming this Week on TheIOS:
ADIOS: The King of Spes: Votum.
IIWP (If I was President): Taxation
The Möbius Code (Part 3)
2 years ago
by Rico Penguin
in General
[ Index ]
Part 1 – The Introduction
Part 2 – From Universe to Solar System
So where were we? Well science is not my strong point, I’m more about the philosophy of things using science as backup. That being said if you catch any scientific inaccuracies in here don’t be all too surprised. The general idea should be close enough for Jazz however.
Generally speaking the further away from a star you are the larger you are. I’m not entirely sure why but I’ve read a few times that it has to do with the lower temperatures. As planets are forming there was probably an issue with certain matter being burned away from inner planets (like say Ice) which didn’t burn off on the outer planets. This would give them much more mass to pull in even more matter until they hit whatever limit (that is before they’d start hitting those uncomfortably large star sizes).
While there are other planets in our Solar System and I’m sure with a good drink and a weekend you could get to know any of them and find them to be quite friendly folks. However there is one that is substantially more important at the moment. That would be Earth, which in the beginning like all other matter was in a fairly hot state. This molten sphere was spinning quite merrily, getting belted by frozen comets and meteor rocks and probably a unicorn or two (okay likely not the latter).
According to a report I read (and subsequently watched on FORA.tv, again you all should check it out), the Moon was formed from a rather large impact during the early days of the Earth. A massive object smashed into the Earth launching a fairly large, dare I say moon sized, chunk of rock into the atmosphere. Interestingly as the video notes the composition of the moon fits quite nicely with this theory and frankly I see little reason not to believe it, I imagine otherwise it would be quite hard for something the size of the moon to be flying by and get stuck in our orbit.
About 4 billion years ago, which frankly isn’t all that long when thinking about non-living things, the first life sprouted up. The presence of water on Earth is not exactly all that surprising. I’d be willing to bet that any planet in the relative range that we are from our star (that is further if their star is larger or closer if their star is smaller) would find quite a lot of water on them. Comets which were, amongst other things, pretty icy were pummeling anything they could get attracted to. Those planets too close to stars would have it subsequently evaporate and those further would have it freeze (special exceptions aside). However for your average planet in this area like that of ours found themselves covered in water. This is helpful because, generally speaking, you are going to be hard pressed to find water and not find life in it. Even extremely toxic, extremely hot, or extremely cold (see ice) water can have life either living merrily or at least being in stasis within them.
I personally wonder if Virus’s were not the first ‘life’ on the Earth. An in-between stage moving from the many non-living (see incapable or acting on own) things to the living. They have very simple processes and a very simple goal. Simply to sustain their existence through whatever means possible. There is and likely never will be any evidence of this and it is merely a thought. However what I can say is that once the acidity of the Oceans (volcanic activity is hell on a PH balance) were friendly enough the bacteria that sprung forth was quite happy to do so.
It seems almost silly to imagine hundreds of millions of years, in which every fraction of a second there is a reaction of chemicals and elements across an almost unfathomably large space would not return some sort of unusual side effect. It’s a very good side effect because without it we wouldn’t have chicken…oh or us. I keep forgetting you need to exist before you eat chicken.
The fact that life is so happy in water makes much sense. Ultraviolet light and other radiations that do well to destroy the genetic makeup that comprises life have relative difficulty permeating water as easily as other substances (exceptions like Lead aside). Unlike Lead and rock, Water is also easy to move through which is a very helpful addition. Though even without water I’m sure that some sort of extreme bacteria would live quite happily in a mercury rich cave dining on the walls.
At some point it became apparent that there was a massive orb blasting endless levels of ultraviolet light onto the planet. Organisms began converting this matter for energy creating a seemingly endless supply of food. They began to convert the CO2 flowing through the air (and wherever else it could squeeze its deadly butt into) into Oxygen. This process would help bolster the atmosphere and probably for a bit was actually quite extreme. Anything that wasn’t prepared to process Oxygen would have found the result quite fatal.
But whenever a massive supply of new food arises something arises to consume it. At some point in here there was surely something that noticed everything around it could produce energy if consumed. Carnivores likely arose at this point. Indeed on thinking back carnivores probably popped up before even the photosynthesis, I just get ahead of myself.
We now had carnivores, herbivores, water, and copious levels of oxygen. However all things included in this conversation are still so small that unless there is an absolutely grotesquely large collection of them we couldn’t see them with the naked eye. Stuff that would make plankton squint…well maybe not but it would sure as hell be hard for us to see.
Tomorrow we’ll move onto the first plants and hope that I don’t butcher too much while trying to make my various points. Who knows in a few decades I might have a nice solid little lecture out of this thing (I redo it yearly).
These things are Extreme!
2 years ago
by Rico Penguin
in General
Going off the same train of thought as yesterday something came across my attention while watching the fantastic television series known as planet earth. Well to be fair to each of them two things came to my attention Snottites and Shortfin Mollies.
So what makes these organisms interesting? Well quite simply they both live in Sulfuric Acid. For those of you that don’t know Sulfuric Acid is one badass mamma jammer. This stuff eats through clothing, flesh, and the fumes can screw you six ways from Sunday. If you asked me, and clarified it was not a trick question, if anything lived in Sulfuric Acid I’d say “Psh. No.” or at least “Extremely Unlikely.” Yet these bacteria and those FISH…yes multicellular FISH…live there apparently pretty damn happily.
This helps expand upon yesterday because its an example of how in some of the most extreme conditions (I don’t know about you but flesh eating acid is pretty extreme to me) organisms as big as fish can even survive. While I’m not sure what the fish are chomping at this time the bacteria appears to live off of the hydrogen sulfide gas (See: Gas that can kill you). This show also discussed a bacteria that ate rock and there are strains that can even survive off rock and hydrogen. (Hydrogen again being one of the most common elements in the universe).
This may even be how life started on Earth and likely every other planet that has seen life. Organisms that can survive in extreme conditions and survive off a simple gas and eat rock (rock eaters are known as lithovores for those of you that love fancy words or have played Master of Orion 2). Massive chunks of ice traveling across the galaxy with invisible (to the naked eye) life surviving for incredibly long times (remember my post a while back about the 32,000 year old bacteria…imagine this on a much larger scale).
The more that extreme organisms pop up on Earth the less impressive our planet becomes in terms of being the sole container of life in the universe. I’m starting to think that while large multicellular life is not exactly going to be common because of issues like radiation and the massive energy needs (relatively speaking) of large organisms that can’t be maintained on non optimal planets that we will indeed find bacteria of some sort just about anywhere we go (or at least quite often).
I suppose the best news is that if these things are eating stone all over the galaxy that at least when we meet them we won’t be instantly liquefied by some super voracious bacteria (since we are carbon and not silicon based). It’s truly exciting stuff that just makes space travel all the more exciting.
The Cave is a Lie.
2 years ago
by Rico Penguin
in General
One of my favorite mammals is apparently in what could be a very very poor position. Now what makes this interesting is that there is apparently no definitive cause. This mysterious killer has only one call sign that may or may not be the cause (it could actually just be an opportunistic mofo). It is possible that as many as half a million (that’s 500,000) bats have died because of this mysterious murderer. To me the scariest part of it, besides the entire mystery, is how it kills. These bats go to sleep and their food reserves burn out before they ever wake up so they starve to death in their sleep. While that does generally seem like the best way to go I don’t know if I’d like to see half a million people mysteriously die while sleeping.
It seems odd to me with hundreds of thousands of bats are dying from some mysterious agent that could possible be transferred from cave to caves by people and the best I see from spelunkers (cave diving) is that they are upset. Some are trying to figure out how their business will survive. I understand the fear but it is certainly odd to guilt trip the bats for dying in throngs.
On the other side though imagine if whatever this agent is were to jump to humans? A mysterious organism that has yet to be identified has the potential to kill hundreds of thousands in a relatively short amount of time. Anything with a 90% mortality rate should most certainly be understood before it is brought within spitting distance of humans. We’ve already got AIDS and I’d hope that we’d only have one seemingly impervious disease at any time.
32 Thousand Years Old and Still Kicking
2 years ago
by Rico Penguin
in General
I wonder just how large of a cake you should buy for an organism that is 32,000 years old? I know for the Galapagos Tortoise they have some mighty fine parties around a century and a half (not living much longer than that) and to be perfectly serious here you have not lived until you’ve seen a Tortoise dancing around with shell tassels.
So what on earth am I talking about? Well in 2005, beneath the nose of many (myself included) there was a discovery in a frozen Alaskan pond of some bacterial life. Well that in itself was hardly interesting, the bacteria had been frozen for 32k years and again while that’s a long time finding really old frozen matter is not exactly uncommon. However, and here is where it gets interesting, once they thawed out the organisms they began moving. It would appear that another wonderful tag to slap on to extremophiles (Organisms that live in extreme circumstances) and that would be the ability to reduce genetic damage caused from oxidation when frozen (and likely some other biological degenerates I don’t understand at this point).
So what does this entail for people? Well from what I’ve read nothing immediately, on my birthday (as usual) there were some skeptics that said it was fake. However there are always skeptics, for some reason anytime something challenges previous held views people get extremely militant and rarely for good reasons. That short rant to the side I’ll provide the curious with some sources.
http://www.newscientist.com/article/dn7064
http://www.accessmylibrary.com/coms2/summary_0286-8444250_ITM
http://www.redorbit.com/news/science/131785/32000yearold_bacteria_found_in_alaska/
For the interest of Fairness here is the Birthday Complaint:
http://www.rsc.org/chemistryworld/News/2007/August/28080702.asp
So with that out of the way this gives me a new goal in life. I would like to see this sort of technology take off so that I could potentially experience cryogenics! How amazing would it be to freeze yourself in time and return at a predetermined time in the future? It certainly would be an interesting proposition. Albeit it would be terrible to be frozen and have some sort of religious war cause the end of humanity (I have heard in the last few years that biological weaponry is becoming a target but that may just be propaganda).
I’m also curious to see if discovering how this organism halts (or retards) oxidation could create a process for humans to slow our own oxidation rates. This would, other factors aside like injury and disease, make us live a good deal longer. While with current reproductive rates that would not be a good thing (unless people start in large actually caring about their education and global impact) however if there was some control brought to reproduction it would be absolutely amazing to live for hundreds of years. However as it stands my understanding of this sort of thing is very limited, so I suppose it’s another topic I need to add to yee old Amazon wish list.
If anyone else finds some more informative sources I’d be interested in them. Feel free to drop them (or input of any kind) by the comments section.
Renewability
2 years ago
by Rico Penguin
in General
Taking another break from Metaphysics I wanted to discuss today the idea of Renewability. I tend to talk about tons of things and sometimes I am quite redundant so if this is a topic I’ve covered previous I apologize.
There is one major factor that limits our ability to be rather creative with our automation of processes. It has been a question late at night for me if currency would have a purpose in a civilization that has optimized recycling and renewable energies and meshed those with entirely automated production facilities. If nobody has to work to provide humanity with the supplies to survive and the luxuries we desire would there be a purpose to currency? Probably, but I think it would stick around for the few who actually like it. That bit of philosophy aside lets continue.
We already have the technology to build structures that generate more power than they use annually. This doesn’t take into account other technologies that are particularly user and nature friendly like wind power and hopefully in the future I believe its called fusion. I’ve read in multiple places that you need to cover roughly the area of Arizona to produce enough energy (with quite a bit of excess) to power the US yearly. That may sound like a great deal of space but you figure that Arizona has 113,998 square miles of surface area. The entire US has a surface area of 3,537,441 square miles! That means we’d need to cover roughly 3% of the united states in solar paneling, which might cause one to ask “Dear Lord! You crazy penguin! That’s 3% of the US that nobody could live in!” but that’s the wonderful thing about Solar Paneling. The less distance you put between you and the Sun the better, mainly because (as far as I know) our atmosphere is a big jerk when it comes to light which is why you tend to find astronomers cuddled together on the top of mountains with big telescopes .
So once you have all this power and essentially an infinitely existing source (considering once the sun is gone we’ll be gone too in one way or another) you start dealing with other resources you require. Firstly is the obvious one of water. With copious amounts of energy we start looking towards methods of renewing water. I would figure there are quite a few very simple systems that could be used, like evaporating and recollecting water and filtering it through large sand (or sand like) basins. This way we’d have essentially infinitely renewable water, likewise desalination plants could take in water from the oceans and do whatever they do. Hopefully figuring out a system that doesn’t kill sea life of course . Also rain water collection and filtration plans to tap into the wonderful transportation system of the Earth.
Food I would think would be incredibly simple to keep up with. Tower like Hydroponics facilities could act like massive green houses that would supply tons of, insecticide free, food for everyone in there region. Likewise building it like a tower helps to supply you large amounts of food and use up little in the way of land. The excess that comes from the facilities that is inedible (whatever that be as long as its organic) could be used as fertilization for various gardens and such across the nation.
So you have food, water, and energy. Now we just have to deal with transportation and housing (essentially). For transportation I’d look into fuel cell systems to use the extra energy that is continually saved up from the solar power that is generated nationwide. Likewise I’m sure they’ll devise other successful systems of transportation, for those that have never tried you can bicycle pretty long distances pretty easily as well 
. Not that I expect the world to switch to cycle energy tomorrow. The only real casualty to switching to electrical energy would likely be that people will have more trouble breaking speed limits, which is likely not a big casualty.
Finally the deal with housing. Certain plants find themselves being very handy for building. In particular Bamboo, it spreads like a weed (might be considered one) and can be used for basically anything wood is used for. The general argument against it that I read about is that it can destroy land by growing too voraciously, however I imagine if you had these hydroponics towers you could grow bamboo in a self contained area. It wouldn’t take much area to grow more bamboo than you’d be able to use yearly.
Anyone who has ever used products made out of bamboo can attest to its amazing versatility. It’s sturdier than most wooden tools I’ve used, seems to resist bursting into flames well enough to keep me alive, and frankly it looks sexy. What I’m trying to get at is the only thing I can see that is keeping us from being entirely (or well into the 90% range) renewable is the greed of a very small portion of people. It’s a shame too, renewable energy is beautiful (ever seen a solar panel? It’s like thousands of tiny rainbows 
) and it smells great (relatively speaking ;D). Plus I doubt you’ve ever heard of a wind farm leaving acres of land radioactive and unusable, or heard of solar panels turning one of the worlds largest cities into a smog cloud.
I do feel that within 10 years any nation with a reasonable level of revenue, like say the US, could become a completely self sufficient entity that could then spend much of its excess cash on positive projects to help further humanity. Unfortunately none of this really arouses the interests of political parties and so there will likely be many years (I hope not before they end of my life) of crude energy sources that-well frankly-should have stopped existing long before I was even born. It’s unusual the diverse levels of technologies we use, it’s like watching cave men dropping atomic bombs it just feels weird.
The Human Body – A Collaborative Project
2 years ago
by Rico Penguin
in General
Today is more of a thought experiment than anything else. I just felt it would be interesting to discuss the human body. Whenever we think of ourselves generally we see ourselves as singular beings, metaphysics aside, generally you look at a person and say “Them” or something of that nature. However in actuality your body is one huge collaborative project, a collection of somewhere between 50 and 100 trillion cells. Each working (hopefully) in symbiosis with all the other cells around it. Even our cells are made up of smaller matter that at one point or another decided (I say that jokingly) that it would hang out with the other matter that now make up the cells.
As I said in the last post when I look at people I tend to think of Jelly fish. Now I know some people might be wondering why, is it because people seem to enjoy outbursts of possibly fatal nature whenever they come into contact with other organisms (mean-world hypothesis ;D), is it because we react most noticeably to the simplest of stimuli, or is it the outside appearance of no actual brain articulating our movements and survival? While all three of these might be fun possible answers it ties in more with what a Jelly fish is. If my memory serves me correctly, be it from animal planet or one of the numerous books that have found their way into my hands over the years, jelly fish are not necessarily one animal. They have collections of other animals on them, now not to say that hamsters are chilling inside the dome of a jelly fish, but very small organisms use these miraculous organisms as a shelter or sorts. In at least one case a jelly fish uses plants to generate nourishment from photo synthesis, in effect what looks like a single organism is in actuality a colony of wonderfully coexisting organisms, albeit its a killing machine, but it’s a beautiful one.
Humans come off to me as much of the same. Our brains aren’t single chunks of matter but collaborative projects of some 100 billion neurons (I don’t think anyone’s ever actually counted, it’s an estimate) each working in kind with its surrounding neurons to create a very efficient command center. It pays to note that while each part of the human works in conjunction with the parts around it it’s not always a safe one, when blood enters the brain it causes severe damage because it causes Neurons to basically fill with an element, I want to say NA (salt) but I don’t recall exactly, until the cells burst. Likewise when a neuron bursts it has a chance of killing the neurons around it which can have dire consequences to the human. It’s one of the many reasons I don’t think humans are ‘intelligently designed’ anyone who designs a cell that receives nourishment from another cell that if they come into contact will obliterate one or both is silly and hardly intelligent. It’s why I don’t try to use electro magnetic coils to power my PC, I like everything functioning.
But when we get down to it, the human body is this amazingly convincing collection of microscopic matter. While there is remarkably little in between certain organs who do well with their fluids, and other parts of the body that would fall apart if that fluid contacted them, it does seem to function properly more often than not (wouldn’t have billions of people if it didn’t). It pays to remember that whenever we do things we aren’t just deciding wether we as a collection of thoughts and actions survive, but every single cell in our being. In a sort of odd sense every time a person dies a form of genocide has unraveled, where trillions of organisms die off in a matter of hours (or days if the weather is just right). So as with the Jellyfish, what looks like a single organism, is actually a colony of wonderfully coexisting organisms, albeit its a killing machine, but it’s a beautiful one.
Who knows, maybe the next time you see a guy on the bus talking to himself he’s really just trying to give his cells a pep talk. I’ve read that sound can stimulate the growth of a plant, if that happens to actually be true, perhaps sound makes your cells all giddy in some manner or another. But don’t ask me to bank on that hypothesis because I’d rather not go down in flames like a US Corporation . (Oooh political burn)