A being similar to apes, hopefully you understand what I was trying to get across anyways. Yes, I do know that is what evolutionists think.Well, humans didn't evolve from apes. Humans and apes both evolved from a shared ancestor millions of years ago.
Well, you can go ahead and post a link on this.The fossil record is much more complete than you seem to like to think.
Don't insult, read what I say.Anyway, your following argument is the height of narrow-mindedness.
I'm saying macro-evolution occuring once does not imply it occured twice, yes. (this is simple logic) In particular, if it occured once the evolutionary tree would still have no proof, it would be up to the advocates of the tree to show that macro-evolution happened every time.You're saying that even though you submit that macro-evolution could've worked once, that still doesn't prove it worked for all species? Wow.
No, all we know is the first term is a 1 like this a+b+c+d+e+f+g+1..., and we do not know if certain values are zero or otherwise. As far as I can tell, the most likely thing that would result from species adapting would be some type of equilibrium which is more like 1-1.1+0.9-0.8+1-1. (which would move towards an equilibrium point and then would oscillate or some similar idea (such as stopping (humans)) and only (other) mutations (which as we can see in humans, good ones are very uncommon) could move the reference point)Simple math. 1+1=2. 1+1+1+1+1+1+1+1+1+1=10. Small changes add up to big changes.
Micro-evolution. You have to learn the problems of extrapolation (sin(x) near zero is approximately equal to x does that mean f(x)=x looks like f(x)=sin(x) on the big scale...No)There's not much more we can do. Scientists have proven that evolution happens right now.
See above.Scientists have proven that speciation is happening now.
Which they like to believe is right. Let them prove that they are right instead of just saying they are right.Scientists have a time-frame of what evolved when up to 3.5 billions of years ago with the earliest prokaryotes,
Let's see them create a living, breathing human then.and have proved that it's possible to go from single atoms to us.
You could start by actually proving something, just believing it doesn't give you any proof. Proofs are meant to "convince the skeptic", they have done a pretty bad job of that so far.There's not much more to prove.
If you can find a range which has a finite probability then it does. If your argument is that circumstantial events actually do not have probability, you are right, but our only way of modeling them is with probability. To give a reasonable estimation of probabilities in these situations, you have to give a range of choices (say of your hair color) which would have a finite probability of being chosen which includes the possibility that did happen. The problem about the example you gave is that it includes ideas such as infinitesimally small time periods (which you cannot use of course), the idea with this problem is to make the question what is the probability that a person similar to you (you define similar with some small ratio of error) came from that exact line. (also defined with a small ratio of error (the people would have to be very similar to the way they actually occured as well) The result will be a much more reasonable result. (i.e. not zero probability) The main idea with using probability against evolution, is that if something similar had happened, we would still be considering this in the same way, which allows us to find a finite probability. (an infinite range of values can be a non-zero percent of the total. (such as 1-2 out of 1-100 in the real numbers, there are an infinite number of numbers in both, but when compared to each other there is a non-zero probability of randomly choosing in the 1-2 range when choosing out of 1-100.)No, I'm using it to say that you can't use the 'dreadfully low possibilty' to disprove evolution. It's like saying that, since in the last 10 generations of your family 2046 (mostly, assuming no inbreeding) people had to meet and procreate at exactly the right time, it is pretty much impossible that you exist. You have a plausible mechanism, and a plausible end result. Probability doesn't come into it.
Its common sense.If the main drive of evolution is creatures adapting to their environment, this equilibrium (oscillation or otherwise) would be likely to occur, because each being would stop adapting (except maybe to get something that changes depending on the weather (but that would change back afterwards)) once they had reached a certain state which fit in with the other creatures in that environment. (this would be especially likely to happen when there were only a few species. In any case, change would be dreadfully slow. (Because all species would keep going back towards the equilibrium state) (we do have a timeline to fill))Chaos. Yes, if all creatures reached a perfect (and I mean down to the submolecular level) equilibrium, then evolution would stop. But that won't happen. Things change.
Hey, I'm not saying they can't occur, I am saying we haven't seen them happen, so we can't assume they can occur. Especially saying it is proven...And you can't just say that large scale adaptations can't occur, just because we haven't seen them happen.
Its common sense.For some random reason I thought you were making a mathematical model that actually showed that all life would not have been eliminated by bad mutations. Yes I know this argument, but if every being were to have many more bad mutations than good ones there could be serious trouble for us to be around today. (this is entirely a conditional probability question (given that we and our universe exists then we give a range of similar universes))P would initially be very low, but as it begins to establish itself its growth rate would accelerate at the expense of the Q. Thus, an advantageous mutation becomes established.
It's a pretty complex (well, for those who don't have maths degrees) model for a rather simple idea, but hey - you asked for it.
Can you give an example of how large this difference has been?Not neccessarily. Small genetic changes (say in a transcription factor gene) can cause widespread developmental and therefore morphological differences. That would result in a single generation large shift, which could not be viewed as a small shift.
Originally Posted by Raistlin
