“[W]e live... in the pockets of reducibility. ...I should have realized [that] very many years ago, but didn't... [I]t could very well be that everything about the world is computationally irreducible and completely unpredictable, but... in our experience of the world there is at least some amount of prediction we can make. ...[T]hat's because we have ...chosen a slice of ...how to think about the universe, in which we can... sample a certain amount of computational reducibility, and that's... where we exist. ...It may not be the whole story about how the universe is, but it is that part of the universe that we care about and ...operate in. ...In science, that's been ...a very special case ...science has chosen to talk a lot about places where there is this computational reducibility... The motion of the planets can be ...predicted. The... weather is much harder to predict. ...[S]cience has tended to concentrate itself on places where its methods have allowed successful prediction.”

— Stephen Wolfram

Stephen Wolfram: Fundamental Theory of Physics, Life, and the Universe (Sep 15, 2020)

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Stephen Wolfram 16

British-American computer scientist, mathematician, physici… 1959

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“If we want to have a predictable life... then we have to build in these... pockets of reducibility. If we were... existing in this irreducible world, we'd never be able to... know what's going to happen.”

Stephen Wolfram (1959) British-American computer scientist, mathematician, physicist, writer and businessman

Stephen Wolfram: Fundamental Theory of Physics, Life, and the Universe (Sep 15, 2020)

“If you think about things that happen, as being computations... a computation in the sense that it has definite rules... You follow them many steps and you get some result. ...If you look at all these different computations that can happen, whether... in the natural world... in our brains... in our mathematics, whatever else, the big question is how do these computations compare. ...Are there dumb ...and smart computations, or are they somehow all equivalent? ...[T]he thing that I ...was ...surprised to realize from ...experiments ...in the early 90s, and now we have tons more evidence for ...[is] this ...principle of computational equivalence, which basically says that when one of these computations ...doesn't seem like it's doing something obviously simple, then it has reached this ...equivalent layer of computational sophistication of everything. So what does that mean? ...You might say that ...I'm studying this tiny little program ...and my brain is surely much smarter ...I'm going to be able to systematically outrun [it] because I have a more sophisticated computation ...but ...the principle ...says ...that doesn't work. Our brains are doing computations that are exactly equivalent to the kinds of computations that are being done in all these other sorts of systems. ...It means that we can't systematically outrun these systems. These systems are computationally irreducible in the sense that there's no ...shortcut ...that jumps to the answer.”

Stephen Wolfram (1959) British-American computer scientist, mathematician, physicist, writer and businessman

Stephen Wolfram: Fundamental Theory of Physics, Life, and the Universe (Sep 15, 2020)

“[S]cience has become used to... using the little... pockets of computational reducibility ([A]n inevitable consequence of computational irreducibility... There have to be these pockets ...scattered around.) to be able to find those cases where you can jump ahead.”

Stephen Wolfram (1959) British-American computer scientist, mathematician, physicist, writer and businessman

Stephen Wolfram: Fundamental Theory of Physics, Life, and the Universe (Sep 15, 2020)

“[W]e should make an effort to limit how much we think about the attractive features of options we reject.”

Barry Schwartz book The Paradox of Choice: Why More Is Less

The Paradox of Choice (2004)

“Computational reducibility may well be the exception rather than the rule: Most physical questions may be answerable only through irreducible amounts of computation. Those that concern idealized limits of infinite time, volume, or numerical precision can require arbitrarily long computations, and so be formally undecidable.”

Stephen Wolfram (1959) British-American computer scientist, mathematician, physicist, writer and businessman

[Undecidability and intractability in theoretical physics, Physical Review Letters, 54, 8, 1985, 735–738, 10.1103/PhysRevLett.54.735, https://www.stephenwolfram.com/publications/academic/undecidability-intractability-theoretical-physics.pdf]

“We still have a great amount of work to do in social development, including resolving one of the biggest challenges we face in this area, namely, reducing the gap between high-income earners and people, citizens of our country, who are still living on very modest means indeed. But we cannot, of course, adopt the solution used 80 years ago and simply confiscate the riches of some to redistribute among others. We will use completely different means to resolve this problem, namely, we will ensure good economic growth.”

Vladimir Putin (1952) President of Russia, former Prime Minister

http://kremlin.ru/eng/speeches/2007/02/01/1309_type82915_117609.shtml
2006- 2010

“Although the insights we can have in meditation tell us nothing about the origins of the universe, they do confirm some well-established truths about the human mind: our conventional sense of self is an illusion; positive emotions, such as compassion and patience, are teachable skills; and the way we think directly influences our experience of the world.”

Sam Harris (1967) American author, philosopher and neuroscientist

Source: 2010s, Waking Up (2014), p. 8

“I think that public opinion today likes a certain amount of pageantry. It is a great mistake to make government too dull. That, I think, was the fault of the German Republic after the First World War. They were very drab and dull; the trouble was that they let the devil get all the best tunes. Therefore, we on this side of the Committee believe that it is right to have a certain amount of pageantry, because it pleases people, and it also counteracts a tendency to other forms of excitement.”

Clement Attlee (1883–1967) Former Prime Minister of the United Kingdom

Speech https://api.parliament.uk/historic-hansard/commons/1952/jul/09/civil-list#column_1328 in the House of Commons (9 July 1952) on the civil list
1950s

“Keep it, keep it!" I answered. "You are very welcome to it! It is only a couple of small things, doesn't amount to anything—about everything I own in the world.”

Knut Hamsun book Hunger

Source: Hunger

“Why do I think that Turing's paper "On computable numbers" is so important? Well, in my opinion it's a paper on epistemology, because we only understand something if we can program it, as I will explain in more detail later. And it's a paper on physics, because what we can actually compute depends on the laws of physics in our particular universe and distinguishes it from other possible universes. And it's a paper on ontology, because it shows that some real numbers are uncomputable, which I shall argue calls into question their very existence, their mathematical and physical existence.”

Gregory Chaitin (1947) Argentinian mathematician and computer scientist

"Epistemology as information theory: From Leibniz to Omega." https://arxiv.org/abs/math/0506552 arXiv preprint math/0506552 (2005). p. 3

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