I do accept that order can arise from physical processes but, in my view and I believe of most people, living things are not ordered in the same way that order exists in crytals or in the layering that arises from differential sedimentation in breakfast cereals.
Order is order. Period. There is not a special kind of order for living things, or complex things. It's just more of the same.
The debate on this thread has, to a large extent, concerned how the complexity of living things might have arisen.
And I have conclusively shown that order can arise from simple mechanics and energy.
You have agreed with this, but argued that
a lot of order cannot arise in this way. You have offered no reason why the ability to stack order on order suddenly breaks down; no evidence that simple mechanics cannot - with appropriate selective mechanisms - continue to accrue order.
You have simply stated that you personally find it unbeleivable that
a lot of order can arise from simple beginnings, even while you freely admit that
some order can.
My point about such ribozymes is that they too would be complex and would be very unlikely to arise by chance.
Who said they arose from chance?
When did anyone, anywhere, ever say they arose from chance?
Why do you keep bringing up chance?
The granola did not sort itself by chance. Ribozymes did not arise by chance. Why do you keep bringing up the word chance? It has no place in this conversation, ever. Period.
For the same reason, I do not think that any self-replicating entity would arise as a result of your shaking your corn-flake packet.
But my granola-shaking example
is not an example of chance.
You have dismissed "ribozymes arising from chance" by dismissing "order arising through mechanics." How, exactly, does that work?
I short animate and inanimate objects are different. There difference in respect of information theory is probably best given by the people who try to define the term "complexity." I would not claim to be an expert on this matter, Paul could undoubtedly give a better explanation, but the essence of the argument is that the data pattern that describes an ordered structure is highly compressible. Thus, for example, if you wished to describe the structure of a crytal of salt, you could describe the position of every atom of sodium and chlorine in the crystal lattice, which would be a very large data file, or you could describe one unit cell and then indicate the number of repeats in each axis needed to describe the whole crystal. This would be a very much smaller data file. The same would apply to you breakfast cereal.
The fact that you can compress simple order into a simple package does not make it non-order. As for an example of supremely complex order that can be reduced to a simple equation:
Fractals
We can - theoretically - reduce almost any complex system to a relatively short fractal equation.
So, the data files needed to describe inanimate structures can be compressed. By comparison, the data files needed to describe complex structurees, such as living things cannot be compressed nearly so easily. Hence, in respect of this aspect of information theory, animate and inanimate things are different.
Your argument is: "compressing simple systems is easier than compressing complex systems. Therefore, simple systems can evolve from mechanics, but complex ones can't."
What has compression got to do how they arise? Why do you assume there is some magic cut-off level of compressibility, which on one side you can arise from simple mechanics and on the other you can't? Can you express this compressiblity limit as a number?
You have not shown any essential link between the compressibility of a system and its ability to be generated by simple mechanics and accrual. You have simply
asserted such a link. As a professional programmer, I am intimately aware of how simple objects can be combined to produce complex behavours, and I am totally unimpressed with your assertion.
