turq, I think it's hardwired into all life forms to survive and procreate. And any conditioning or teaching that happens after birth, is derived from that particular species acquired *knowledge* regarding both. And yes, people do what's detrimental all the time. But I think this indicates the presence of a mechanism for reaching, if not a state of happiness and peace, at least a state of homeostasis.
On Sunday, May 4, 2014 6:25 AM, TurquoiseBee <turquoi...@yahoo.com> wrote: From: Share Long <sharelon...@yahoo.com> To: "FairfieldLife@yahoogroups.com" <FairfieldLife@yahoogroups.com> Sent: Sunday, May 4, 2014 1:13 PM Subject: Re: [FairfieldLife] Re: One last set of thoughts for Curtis turq, I think most humans have a hierarchy, if only in that they have preferred states. Your preferred state is to view all conditions as equal in value. But by that very preferring, you raise the state of no hierarchy to the top of the heap of states! For *me*, Share. I didn't try to sell it to you. Because the thing is, humans, at a fundamental level, cannot prefer or value more highly, what they even unconsciously hold as detrimental. Nonsense. People do this all the time, continue behaviors that they consciously *know* are detrimental to them. Their position within an imaginary hierarchy has no relationship to whether they continue those behaviors or not. My guess is that having preferences or hierarchies is hard wired into us for survival value. I disagree. I see nothing wrong with preference or believing in hierarchies, but I definitely don't see them as the same thing. Despite your attempt at what you thought was a clever remark earlier, having a preference does NOT imply believing in a hierarchy. I think that the tendency to see the universe as hierarchical is a way of thinking that was *taught* to us -- so early and so often and for so long that most people don't even realize that it WAS *taught* to them. I do NOT believe it's inherent to the human condition. On Sunday, May 4, 2014 4:03 AM, TurquoiseBee <turquoi...@yahoo.com> wrote: Great information, anartaxius. Wolfram's theories kinda mesh with mine, in that I don't see any *need* to postulate free will when both the complexity and the seeming order we see around us can just as easily be explained by random collisions within a somewhat-ordered but fundamentally random system. One of the ways I think some "spiritual" people get a bit "off" in their thinking about determinism or a lack of free will is that they're trying to impose their hierarchical *intellectual understanding" of a certain subjective state onto the universe as a whole and say, "That's it. That's how it works. That is how the universe IS at its most fundamental level." I am speaking, of course, of the "Not the doer" experience. Most on this forum have heard about it; many have experienced it. I have, too. And it's an interesting feeling, being so "in the flow" of life that it seems as if you are a mere puppet dancing to someone or something else manipulating the puppet strings. I have NO PROBLEM with this feeling or subjective experience existing. I've had it myself. What I *don't* do is assign that subjective experience a *value* of being "higher" or "more fundamental" than any other subjective experience. "Not the doer" is, for me, Just Another Experience, Just Another State Of Attention. I think many "spiritual" folks have been taught that it ISN'T Just Another State Of Attention, it's the HIGHEST State Of Attention, and that one should "aspire" or "seek" to having it all the time. You pay yer dues on the spiritual path, and finally you get to live in this "highest state" all the time. That, of course, is the basis of Maharishi's "Seven States Of Consciousness." Completely and utterly hierarchical. As I've stated before, I don't believe that life or the universe IS hierarchical. And I don't believe that any subjective state of attention -- even Unity or Brahman as described by MMY -- is the "highest" or "best" or "most fundamental" state of attention. It's just another one. But if you believe this "Not the doer" feeling is *more* than a feeling, and how things "should" be when you've reached some supposed "pinnacle" of human evolution, you might come to believe that the subjective feeling is somehow "correct" or the "baseline" of existence and that you have no free will. I don't buy it. I think that the "Not the doer" thang, however interesting it may be, is -- as I said -- Just Another State Of Attention, and no closer to any fundamental "truth" about the universe than any other state. So there is no impetus on my part to want to believe that my personal "Not the doer" feelings were anything more *than* feelings. I don't have to try to postulate a lack of free will just because I've occasionally experienced something that feels like that subjectively. I don't buy the dogma that suggests that having an ego and a sense of self is in any way lesser than having a non-ego, not-the-doer sense of Self. They're just different states, that's all. No hierarchy or "better" about either one. ________________________________ From: "anartax...@yahoo.com" <anartax...@yahoo.com> To: FairfieldLife@yahoogroups.com Sent: Sunday, May 4, 2014 4:11 AM Subject: [FairfieldLife] Re: One last set of thoughts for Curtis Based on ideas that began with the work of mathematicians Benoit Mandelbrot and John Conway, the physicist Stephen Wolfram has some interesting ideas on the nature of free will. Wolfram has been investigating simple computational systems that have very simple starting conditions and very simple rules which nonetheless result in extremely complicated results, as the rules are applied to the system iteratively ad infinitum. The results of these simple systems have been extraordinary order as well as what seems like total chaos. Here is what Wolfram, from his book A New Kind of Science says about free will: The Phenomenon of Free Will Ever since antiquity it has been a great mystery how the universe can follow definite laws while we as humans still often manage to make decisions about how to act in ways that seem quite free of obvious laws. But from the discoveries in this book it finally now seems possible to give an explanation for this. And the key, I believe, is the phenomenon of computational irreducibility. For what this phenomenon implies is that even though a system may follow definite underlying laws its overall behaviour can still have aspects that fundamentally cannot be described by reasonable laws. For if the evolution of a system corresponds to an irreducible computation then this means that the only way to work out how the system will behave is essentially to perform this computation--with the result that there can fundamentally be no laws that allow one to work out the behaviour more directly. And it is this, I believe, that is the ultimate origin of the apparent freedom of human will. For even though all the components of our brains presumably follow definite laws, I strongly suspect that their overall behaviour corresponds to an irreducible computation whose outcome can never in effect be found by reasonable laws. And indeed one can already see very much the same kind of thing going on in a simple system like the cellular automaton on the left [an example in the book not shown here]. For even though the underlying laws for this system are perfectly definite, its overall behaviour ends up being sufficiently complicated that many aspects of it seem to follow no obvious laws at all. And indeed if one were to talk about how the cellular automaton seems to behave one might well say that it just decides to do this or that--thereby effectively attributing to it some sort of free will. But can this possibly be reasonable? For if one looks at the individual cells in the cellular automaton one can plainly see that they just follow definite rules, with absolutely no freedom at all. But at some level the same is probably true of the individual nerve cells in our brains. Yet somehow as a whole our brains still manage to behave with a certain apparent freedom. Traditional science has made it very difficult to understand how this can possibly happen. For normally it has assumed that if one can only find the underlying rules for the components of a system then in a sense these tell one everything important about the system. But what we have seen over and over again in this book is that this is not even close to correct, and that in fact there can be vastly more to the behaviour of a system than one could ever foresee just by looking at its underlying rules. And fundamentally this is a consequence of the phenomenon of computational irreducibility. For if a system is computationally irreducible this means that there is in effect a tangible separation between the underlying rules for the system and its overall behaviour associated with the irreducible amount of computational work needed to go from one to the other. And it is in this separation, I believe, that the basic origin of the apparent freedom we see in all sorts of systems lies--whether those systems are abstract cellular automata or actual living brains. But so in the end what makes us think that there is freedom in what a system does? In practice the main criterion seems to be that we cannot readily make predictions about the behaviour of the system. For certainly if we could, then this would show us that the behaviour must be determined in a definite way, and so cannot be free. But at least with our normal methods of perception and analysis one typically needs rather simple behaviour for us actually to be able to identify overall rules that let us make reasonable predictions about it. Yet in fact even in living organisms such behaviour is quite common. And for example particularly in lower animals there are all sorts of cases where very simple and predictable responses to stimuli are seen. But the point is that these are normally just considered to be unavoidable reflexes that leave no room for decisions or freedom. Yet as soon as the behaviour we see becomes more complex we quickly tend to imagine that it must be associated with some kind of underlying freedom. For at least with traditional intuition it has always seemed quite implausible that any real unpredictability could arise in a system that just follows definite underlying rules. And so to explain the behaviour that we as humans exhibit it has often been assumed that there must be something fundamentally more going on--and perhaps something unique to humans. In the past the most common belief has been that there must be some form of external influence from fate--associated perhaps with the intervention of a supernatural being or perhaps with configurations of celestial bodies. And in more recent times sensitivity to initial conditions and quantum randomness have been proposed as more appropriate scientific explanations. But much as in our discussion of randomness in Chapter 6 nothing like this is actually needed. For as we have seen many times in this book even systems with quite simple and definite underlying rules can produce behaviour so complex that it seems free of obvious rules. And the crucial point is that this happens just through the intrinsic evolution of the system--without the need for any additional input from outside or from any sort of explicit source of randomness. And I believe that it is this kind of intrinsic process--that we now know occurs in a vast range of systems--that is primarily responsible for the apparent freedom in the operation of our brains. But this is not to say that everything that goes on in our brains has an intrinsic origin. Indeed, as a practical matter what usually seems to happen is that we receive external input that leads to some train of thought which continues for a while, but then dies out until we get more input. And often the actual form of this train of thought is influenced by memory we have developed from inputs in the past--making it not necessarily repeatable even with exactly the same input. But it seems likely that the individual steps in each train of thought follow quite definite underlying rules. And the crucial point is then that I suspect that the computation performed by applying these rules is often sophisticated enough to be computationally irreducible--with the result that it must intrinsically produce behaviour that seems to us free of obvious laws.