Ok, this will be a long post, but hang in there, cuz there will be a good point at the end!
In Classical Thermodynamics, the term “entropy” is the measure of the amount of energy unavailable for work in a physical system. Left to itself over time, any such system will end with less available energy (i.e., a higher measure of, or increase in, entropy) than when it started, according to the 2nd law. In this classic form, the 2nd law applies specifically to probability of distribution with regard to heat and energy relationships of physical systems, and as such, the entropy involved may be described specifically as thermal entropy.
Similarly, the “generalized 2nd law” applies the same entropy principle to information systems in such a way that, left to itself over time, the information conveyed by an information-communicating system will end more distorted and less complete than when it began (again, a higher measure of, or increase in, entropy—in this case informational entropy), and likewise, applied to Statistics, left to itself over time, the order or regularity of a system will be less than when it began (and again, a higher measure of, or increase in, entropy—in this case statistical entropy).
The vital point to be grasped here is that the presence of a system (whether organizational or mechanical) hardly guarantees continuous enhancement, but more realistically is subject to continual degradation, if it is not kept to the pre-determined standard defined in its original design. Evolutionistic thinking often ignores this principle, despite the fact that it is a profoundly and empirically established scientific fact.
OK, now that we got all that established, we can get to the good part.
Evolutionists claim that order from disorder is common in nonliving systems. They use the examples of snowflakes and crystals.
All living things (down to even a single-celled organism) are highly complex and organized—each component in its proper place and functioning according to its instructions to keep the organism going. They don't just “happen” in nature—the notion of spontaneous generation was long ago and often disproven [Redi (1688), Spallanzani (1780), Pasteur (1860), and Virchow (1858)], establishing the Law of Biogenesis, which remains confirmed in that man has never observed life coming from anything but life itself.
On the other hand, simple “order” such as that found in a snowflake or a crystal, for example, is exceedingly trivial, when compared to the increase in information, organization or complexity that would be required for either spontaneous generation (the beginning of biological evolution), or any form of progressive macro-evolution itself. The formation of molecules or atoms into geometric patterns such as snowflakes or crystals reflects movement towards equilibrium—a lower energy level, and a more stable arrangement of the molecules or atoms into simple, uniform, repeating structural patterns with minimal complexity, and no function.
Thus, crystals are not examples of matter forming itself into more organized or more complex structures or systems even remotely parallel to those inherent in living organisms, even though they may certainly reflect “order” in the form of patterns (the very structure of which is both enabled and limited by the molecules which comprise them), and they certainly cannot serve realistically as “proof” that life can therefore create itself.
jlanger wrote:
"Bacteria split apart (by themselves) all the time I have actually seen this. a crab can grow a new leg, plants grow new limbs etc. Now while this isn't exactly spontaneous generation as it does require energy to happen, things can grow from things that don't appear to be. A few chemicals mixed together can create a very primitive organism."
Bacteria is already a living organism with DNA. It can split apart by itself because it has the instructions to do so. Also, a crab can grow a new leg because the required instructions are written in it's DNA.
But, how could have life formed from some chemicals mixed together? What set of instructions told it how to organize? Wouldn't this be "order from disorder"? Has this been done in a lab, without any external forces acting as "instructions"?
