Before looking into what happens within Science itself, let discuss some of its uncanny consequences. It is easy to be a devotee of the scientific method; it is not so easy to also be a consciously responsible scientist. The history is well known: dynamite, invented by Alfred Nobel, became a building block of weapons used for killing people. The discovery of radioactivity led to the buildup of nuclear arsenals. The bombs stockpiled today are sufficient for destroying all life on our planet. Artificial Intelligence
and Bioengineering can, potentially, lead to a similar catastrophe.
Bertrand Russell On the Destructiveness of Science
In “Religion and Science”, Bertrand Russell summarizes it this way:
The scientific temper of mind is cautious, tentative, and piecemeal; it does not imagine that it knows the whole truth, or that even its best knowledge is wholly true. It knows that every doctrine needs emendation sooner or later, and that the necessary emendation requires freedom of investigation and freedom of discussion. But out of theoretical science a scientific technique has developed, and the scientific technique has none of the tentativeness of the theory. Physics has been revolutionized during the present century by relativity and the quantum theory, but all the inventions based upon the old physics are still found satisfactory. The application of electricity to industry and daily life—including such matters as power stations, broadcasting, and electric light—is based upon the work of Clerk Maxwell, published over sixty years ago ; and none of these inventions has failed to work because, as we now know, Clerk Maxwell's views were in many ways inadequate. Thus the practical experts who employ scientific technique, and still more the governments and large firms which employ the practical experts, acquire a quite different temper from that of the men of science: a temper full of a sense of limitless power, of arrogant certainty, and of pleasure in manipulation even of human material. This is the very reverse of the scientific temper, but it cannot be denied that science has helped to promote it.
The direct effects of scientific technique, also, have been by no means wholly beneficial. (…) they have increased the destructiveness of weapons of war, and the proportion of the population that can be spared from peaceful industry for fighting and the manufacture of munitions.(…) These evils of our time are all due in part to scientific technique, and therefore ultimately to science. (bold, mine.)
Although what Russell is saying is to the point, yet it does not tell us the whole story. It should be added that the scientific revolution carried within itself certain undesirable effects that, instead of diminishing, are growing larger and more dangerous in our time. In the seventeenth and eighteenth century’s scientists were often well educated members of the upper class who had a great deal of leisure and plenty of money to support their research. This was the Golden Age of Science. Later, in the nineteenth century, economic and political consequences of certain discoveries started to put Science on a wrong path. The pursuit of science became a career rather than a hobby. An army of scientific workers was sought to serve the agendas of what was to become known as the Military-Industrial Complex.
Coming next: Curiosity, intellectual freedom and Science
P.S.1 22-01-2023 Reading McGilchrist "The Matter with Things":
"In our ordinary way of thinking, things must be established before there can be relationships, and so this about-turn should seem paradoxical; but as I shall explain, paradox very often represents a conflict between the different ‘takes’ afforded by the two hemispheres. However, we must also be prepared to find that, as Niels Bohr recognised, whereas trivial truths manifestly exclude their opposites, the most profound truths do not."
" This is itself a version of the realisation that what applies at the local level does not necessarily apply in the same way at the global level. The failure to observe this principle underlies some of the current misconceptions of both science and philosophy.
I believe that nowadays we live no longer in the presence of the world, but rather in a re-presentation of it. The significance of that is that the left hemisphere’s task is to ‘re-present’ what first ‘presences’ to the right hemisphere. This re-presentation has all the qualities of a virtual image: an infinitely thin, immobile, fragment of a vast, seamless, living, ever-flowing whole. From a standpoint within the representation, everything is reversed. Instead of seeing what is truly present as primary, and the representation as a necessarily diminished derivative of it, we see reality as merely a special case of our representation – one in which something is added in to ‘animate’ it. In this it is like a ciné film that consists of countless static slices requiring a projector to bring it back into what at least looks to us like a living flow. On the contrary, however, reality is not an animated version of our re-presentation of it, but our re-presentation a devitalised version of reality. It is the re-presentation that is a special, wholly atypical and imaginary, case of what is truly present, as the filmstrip is of life – the re-presentation is simply what one might call the ‘limit case’ of what is real. Stepping out of this world-picture and into the world, stepping out of suspended animation and back into life, will involve inverting many of our perhaps cherished assumptions."
"Straight lines, in as much as they can be said to exist at all, do so as the limit case of curves, which constitute all the lines in nature even space and the paths travelled in it are curved). Linearity is the limit case of nonlinearity, and can be approximated only by taking ever narrower views of an infinitely complex picture. The discontinuous, in as much as it can be said to exist at all, is the limit case of the continuous, which is the norm. Total independence is an imaginary construct, the limit case of interdependence, which is universal."
"Let me give a few further examples, which I grant may seem at first sight surprising, even nonsensical. We could start with our own thought processes and their expression in language. The explicit is not more fully real than the implicit. It is merely the limit case of the implicit, with much of its vital meaning sheared off: narrowed down and ‘finalised’. The literal is not more real than the metaphorical: it is merely the limit case of the metaphorical, in which the wealth of meaning is collapsed into a 1:1 correspondence for a useful, temporary, purpose. More importantly, it’s the wider cosmos whose deep structure we are inclined to misunderstand. It may seem obvious that randomness is the primary condition and that order is an unusual phenomenon that emerges from (how?), and is supervenient on, that primary chaos. However, order is not a special case of randomness, but randomness merely the limit case of order, which is the universal norm. Indeed, true randomness is a theoretical construct that does not exist." (bold, mine)
And so I think. And I know what needs to be done. We are consciously aware only about a thin boundary of the Infinite Domain.
„However, we must also be prepared to find that, as Niels Bohr recognised, whereas trivial truths manifestly exclude their opposites, the most profound truths do not.”.
ReplyDeleteI think this part of the quotation is of great importance. This idea can be illustrated using examples from quantum mechanics and category theory.
For example the principle of superposition is a profound truth in quantum mechanics. According to this principle, a quantum system can exist in multiple states simultaneously until a measurement is performed. This idea is fundamentally different from classical mechanics, where objects have definite states at any given time. In quantum mechanics, a particle can be both in state A and state B until a measurement collapses the wave function into one of the possible states. This example demonstrates how a profound truth in quantum mechanics (superposition) doesn't exclude its opposite (classical determinism) but rather encompasses it as a special case.
Moreover elementary particles like electrons exhibit both wave-like and particle-like properties, depending on the experimental setup. This duality is another profound truth in quantum mechanics, as it defies our classical intuition that something should be either a wave or a particle, but not both. The wave-particle duality is an example of a profound truth that doesn't negate its opposites (wave or particle) but instead reconciles them in a more profound understanding of the nature of reality.
And one more example. One of the central ideas in category theory is the concept of duality, where every statement or theorem has a corresponding "dual" statement, obtained by reversing the arrows in the original statement. Duality in category theory highlights how two seemingly opposite ideas can be related and coexist, enriching our understanding of mathematical structures.
One way to connect category theory to the philosophical ideas of Hegel and Plotinus is by considering the concept of "unity in diversity," which is a central theme in both Hegel's dialectics and Plotinus' emanation theory.
Hegel's dialectical process involves the synthesis of opposing ideas (thesis and antithesis) to arrive at a higher level of understanding (synthesis). This process emphasizes the unity of opposites in the development of thought and knowledge.
Plotinus, in turn, proposed the idea of emanation, where the ultimate reality, the One, successively emanates lesser realities, such as the Intellect and the World Soul. The diverse emanations are unified in their origin and ultimately strive to return to the One, highlighting the unity underlying the diversity of existence.
In category theory, the concept of "universal constructions" provides a mathematical illustration of unity in diversity. Universal constructions identify objects in a category that have specific properties with respect to a collection of other objects and morphisms. Examples include initial and terminal objects, limits, colimits, and adjoint functors. These constructions demonstrate how diverse structures within a category can be unified through a shared relationship or property.
For instance, consider the categorical product (a type of limit). Given objects A and B in a category, their product, denoted by A \times B, is an object that represents the "most general" way of combining A and B while preserving their individual properties. This product unifies diverse objects (A and B) through their shared relationship within the category.
This example from category theory, illustrating the unity of diverse structures through universal constructions, resonates with the philosophical themes of unity in diversity found in Hegel's dialectics and Plotinus' emanation theory.
And also in physics and in the temporal world...
"And so I think. And I know what needs to be done. We are consciously aware only about a thin boundary of the Infinite Domain. ".
ReplyDeleteThe mystic, however, can see more. Mysticism can take the mind beyond time. The best you can do in a situation where you have seen this world from a different perspective is to come back here and describe what you saw. This is what metatheory is all about.
The question, however: How do we describe it all in such a way that it is clear and understandable to others, if we previously had problems even expressing simple thoughts and other people understood us poorly, thought we had bad intentions?
I think that this task is not as difficult as it seems. When we write about things that are not very complex we are not telling the truth. We always oversimplify a little, sometimes we censor something, we don't want to reveal a certain part of the truth, because then our possible interlocutor might think that there is something wrong with us.
At some point, you have to make that decision to either remain a secret forever or tell the whole truth. Telling the whole truth is a metatheory and a lifetime's work. But I think it is the most beautiful work we can do, not for ourselves but for others.
All is probably pre-ordered and the randomness limit would kind of be an unintelligent walk through through the preexisting order. What kind of Planck pivot duality structure would a discontinuous limit of continuous be? Seems kind of related to that question of a varying Planck constant in a session.
ReplyDeleteI am not accepting some comments to encourage my Readers to strive for a high information/volume ratio. Long comments that consist mostly of generalities are my target. A comment 2+2=4 will be accepted. A comment: there are integers whose sum is an integer - will not be published.
ReplyDeleteIn fact, publishing a comment is in the same category as publishing a paper in a high quality journal. A good reviewer will not accept low information to quality ratio.
DeleteOn the other hand there are also bad reviewers. In October last year I was fighting with bad reviewers. I wrote to the Editor of the journal complaining abuot reviewer's low information/volume ratio:
"...
1 Reply: First 23 lines
The Referee’s reply to the new version of our paper is 44 lines long. The first
23 lines of it can be reduced to just two lines:
Page 5, Line 8: superfluous minus sign in front of Ex.
Page 5, Eq. (4) Forgotten ǫ in the denominator of the exponential"