Hey, I hope you guys don't mind a layman popping in for a bit, I've got a question.
I've always considered that if we had a perfect model to predict how evolution would occur on our planet, evolution would appear to be completely deterministic and there would be no randomness, but that since our predictive model is limited, evolution will have occurances such as random mutations that we can not completely accurately predict.
In that sense, my idea of random was that it was simply the changes that we don't have enough information to completely predict . Now, am I even remotely close on this? I don't have much of a flair for mathmathmatics so I'm not good at being very technical, I suppose this is about the best I can state it.
I know everyone's been debating this back and forth, so it's enough for me to just know whether I'm on the right track or not, if you don't want to restate what you've been stating for 44 pages.
I would say you are remotely close on this, but I'll add my two cents.
First, there's the question about these "random" events. When you flip a coin, and it comes up tails, was that "truly random" or was it determined by spin rates, and muscle pressure, air resistance, and all of that stuff? In other words, if we could measure accurately, could we predict all those random events?
On a fundamental level, the answer is that we don't know for certain, and in fact we cannot know for certain. However, Ivor the Engineer posted a similar question about that not long ago and, in my response, I noted that most physicists believe that there are, in fact, truly random events, not determined by anything at all until they happen. Furthermore, these events are not just at the microscopic level, but in fact show up in real world consequences. Schneibster, in elaborating on my response, explained why the physicists believe that, even though they cannot know for certain, and they know they cannot know for certain.
So, on a fundamentel level, there are "truly random" events that influence the course of evolution. There are things that happened that no measurement, no matter how precise or complete you could measure, for every single particle in every single atom in the entire universe, could have predicted.
On the other hand, when a snake eats a bird's egg, but leaves another right next to it, we could argue whether that was a "truly random" event, caused only when quantum events happened to move the snake toward one egg and away from another, or a pseudorandom event, predetermined by the snake's brain, but just unpredictable for lack of measurement. We could argue about that, but it isn't all that interesting to me. Either way, one of the eggs was saved, and one of the eggs was damned*, and there's no way to predict which one it would be. We call it random regardless of whether or not "God plays with dice".**
However, that isn't what this thread is about. This thread is about descriptions.
You noted that you "don't have much of a flair for mathematics". Knowing that, if I tried to discuss evolution with you I probably wouldn't bring up a lot of mathematical descriptions. You can describe most of evolution without ever worrying about randomness. On the other hand, some people, like mijo, do have a flair for mathematics, and are interested in it.
So once upon a time, I was writing about Richard Dawkins' book, "The God Delusion", and noted that it was odd that Dawkins devoted considerable space to objections about evolution and randomness. He was quite adamant that we are not here "by chance", but that the evolutionary process that produced us was "the exact opposite of chance". I thought it was odd because I, too, have a flair for mathematics, and I have studied probability (and remember what I studied), and I noted that evolution was, in fact, a random process. Probability is a fairly advanced mathematical subject, and most people never study it except for maybe an example or two about dice, but for those of us who made mathematics a major portion of our life's study. we took probability and can recognize not just the average, layman's definition, but the precise technical definitions that you don't get to unless you are an upper classman studying mathematics, engineering, or a related field. Furthermore, if you wanted to model evolution, either in the mutation process or the selection process, if you didn't include randomness in your models, your models would be simply inaccurate, except at the grossest level of detail.
I speculated on why Dawkins might be so averse to using that description, when it was so clearly accurate. Some others picked up on it and split that thread. Mijo made a comment, rather inoccuous, really, and quite correct, to which some idiot replied "You don't understand science" This irked mijo and he started a thread specifically on the subject of whether or not evolution is random.
Among people who understand the term, there really is no question. Evolution is random. Mutation is random. Natural selection is random. You don't have to believe me, but if you don't, you're wrong. I'm ok with that.
So, why are we approaching 1800 posts in this thread, then, if the answer is so clear? There are a couple of ways of answering that question. First, evolution is a weird subject, because it's a scientific subject, but with religious implications. Some people want certain things to be true, even if they aren't true. Evolution is true, but fundamentalists who believe the Bible wish it were not.
On the other hand, evolution is rather difficult to demonstrate. If someone doesn't believe gravity, I can drop a rock on his head and the argument will be over. If they don't believe in evolution, I have to wait several generations until his genes finally disappear. This leaves a lot of room for argument, and in the course of those arguments, people make all sorts of distortions about the other people's arguments. Some of those arguments, and the distortions thereof, are about randomness, so a lot of incorrect things are written regarding randomness and evolution, and so people are concerned that an argument, even though correct, might be distorted.
More importantly, though, in my humble opionion, evolution is an important subject, misunderstood by all sorts of people on both sides of the discussion. People get rather emotional about it, and it becomes a real US vs. THEM argument. Somewhere along the line, people started identifying key words and phrases as common elements in the arguments for "the other team". "Evolution is random" got assigned to the other team. From Dawkins to articulett, there are a bunch of people who think that if you use those words, you're probably on their team.
It's balderdash, but that's what this thread is about.
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* See "Waiting for Godot", a play strangely relevant to this thread.
**Einstein famously believed that there were no "truly random" events, and he (an atheist) summed up his opinion in his famous quote "God does not play with dice". Most scientists today believe that was one of Einstein's few errors.
