I will take the strong emotion to be both positive and competitive. It's a
first draft cover piece and you are right to correct me concerning Frege's
Sense and Reference, thank you.
"The mechanics of sense" simply refers to the mechanism characterizing sense in
biophysics, I assume that there is such a mechanism. Hence, I do not view sense
as incorporeal, nor do I view the scientific mechanism as facing demise.
You are, I know, an authority on the lack of substance (Aetherometry). :-)
I appreciate your input Malgosia and will certainly consider it.
With respect,
Steven
--
Dr. Steven Ericsson-Zenith
Institute for Advanced Science & Engineering
http://iase.info
On Mar 4, 2012, at 10:06 PM, malgosia askanas wrote:
> I am sorry, but this inflated piece of vacuous hype would forever discourage
> me from having anything to do with the book. The only half-way informative
> tidbit is that the book concerns "a logic informed by recent advances in
> biophysics." By the way, "On Sense and Reference" is not a book but a
> 25-page journal article, and it has nothing to do with either the senses
> (such as sight or smell) or with making sense of the world. And what are the
> "mechanics of sense"; have we now extended scientific mechanism to
> incorporeals, just to forestall its demise?
>
> -malgosia
>
> At 6:35 PM -0800 3/4/12, Steven Ericsson-Zenith wrote:
>> Dear List,
>>
>> I am writing the Proemial for my forthcoming book "On The Origin Of
>> Experience" and will appreciate your feedback. In particular, I ask that you
>> challenge two things about it. First, over the years of my work I have
>> developed an aversion to using the term "consciousness," which seems to me
>> to be too overloaded and vague to be useful. On the other hand Debbie (my
>> wife) argues that it will interest people more if I use it. Second, the
>> vague "transhumanism" concerns me.
>>
>> Imagine this is on the back of a book. Does it encourage you to read the
>> book?
>>
>>
>> Proemial: On The Origin Of Experience
>>
>> Imagine that you could discover something so profound that it would not only
>> have a broad impact upon the entire species but the universe itself could
>> not proceed, could not evolve, without consideration of it.
>>
>> This speculation refers to the role an intelligent species capable of
>> mastering the science of living systems plays in cosmology. Rather than
>> viewing intelligent species as the end product of a developing universe, it
>> suggests that they are simply a necessary step along the way. It observes
>> that an intelligent species able to place life into environments in which it
>> would not otherwise appear plays a role in the unfolding of the world.
>>
>> Imagine, for example, that future Voyager spacecraft can be constructed with
>> a fundamental understanding of what is required to build living, thinking,
>> machines, machines that have the capability of any living system to heal and
>> reproduce.
>>
>> The intelligent creation of such machines, machines that experience, may be
>> an essential part of nature's unfolding. This thought suggests that
>> intelligent species, here and elsewhere in the universe, play a role in the
>> natural dynamics of the unfolding world.
>>
>> Such a species would become the evolved ³intelligent designers² of life,
>> extending life beyond the principles and necessities of arbitrary evolution,
>> an inevitable part of nature's ³plan² to move life beyond its dependence
>> upon the environment in which it first evolves.
>>
>> If this is the case then our species, along with other such species that may
>> appear elsewhere, are not mere spectators but play a role in the unfolding
>> of the world.
>>
>> In recent decades we have made significant advances in understanding the
>> science of the living. Modern biophysics has begun to show us the detailed
>> composition and dynamics of biophysical structure. For the record, it's
>> nothing like a modern computer system.
>>
>> The results of this global effort are Galilean in their scope and pregnant
>> with implication. It is surely only a matter of time before we move to the
>> Newtonian stage in the development of our understanding and learn the
>> details of how sense is formed and modified, the role that sense plays in
>> our directed actions, and how intelligent thought functions.
>>
>> Today, however, there is only a poor understanding of the mechanics of
>> sense. Theorists have had little time to give the new data deep
>> consideration.
>>
>> Clearly, more biophysical experiments, more observational data, will help
>> us. If we look at the history of science this period is analogous to the
>> period before Newton, in which experimentalists and observers such as
>> Galileo and Copernicus built the foundations of Newton's inquiry. A
>> breakthrough of a kind similar to Newton's discovery of gravitation is
>> required.
>>
>> But to make this breakthrough it is the discipline of the logicians that we
>> need to recall. Before the age of sterile twentieth century logic, when
>> mathematical logic was first developed and before modern computers were
>> invented, it is the logicians that concerned themselves with explaining the
>> nature and operation of thought and sense. Recall that George Boole
>> (1815-1864) entitled his work on logic The Laws Of Thought[1] and the
>> founder of modern logic, Gottlob Frege (1848-1925), wrote the book entitled
>> Sense And Reference[2]. I know from experience that it is a surprise to many
>> that use logic everyday in their education and computing professions that
>> the original concern of logicians is the operation of the senses and the
>> mind. If we are to uncover the mechanics of sense and thought, if we are to
>> understand the biophysical operation of the mind, then it is this earlier
>> inquiry to which we must return.
>>
>> My subject here is logic of the kind that existed before the current era. It
>> is a logic informed by recent advances in biophysics. It explores solutions
>> that could not have been considered by the founders of mathematical logic
>> because they lacked this new data, and it takes steps toward a calculus for
>> biophysics. It does not provide the final answer. This is because we propose
>> that something new is to be discovered. But we do present an hypothesis that
>> identifies exactly what that something is and how to find it. What is more,
>> even if we discover the hypothesis is false we will learn something new and
>> make progress.
>>
>> The speculation above, that we can discover something so profound that it
>> will not only have a broad impact upon the entire species but that the
>> universe itself cannot proceed without it, will give philosophers something
>> to talk about for generations. It amuses me, in any case. In the meantime we
>> in science, and logic in particular, have work to do.
>>
>>
>> --
>> Dr. Steven Ericsson-Zenith
>> Institute for Advanced Science & Engineering
>> http://iase.info
>>
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