- Sep 2024
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link.springer.com link.springer.com
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The ontology derived by accepting consciousness as fundamental would be that objectivity and classical physics supervene on quantum physics, quantum physics supervenes on quantum information, and quantum information supervenes on consciousness.
for - quote - classical physics supervenes on quantum physics, which supervenes on quantum information, which supervenes on consciousness - Federico Faggin - Giocomo Mauro D'Ariano
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www.youtube.com www.youtube.com
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the problem here is that physicists am never worried about consciousness because that's the problem of neuroscientists. And neuroscientists don't know quantum physics. So what the hell then? You know, there is a hole in the middle right?
for - consciousness - incomplete knowledge of science - hole in understanding - physics - neuroscience - quantum mechanics - Federico Faggin
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- Aug 2024
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www.youtube.com www.youtube.com
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for - Federico Faggin - quantum physics - consciousness
summary - Frederico Faggin is a physicist and microelectronic engineer who was the developer of the world's first microprocessor at Intel, the Intel 4004 CPU. - Now he focuses his attention on developing a robust and testable theory of consciousness based on quantum information theory. - What sets Frederico apart from other scientists who are studying consciousness is a series of profound personal 'awakening'-type experiences in which has led to a psychological dissolution of the sense of self bounded by his physical body - This profound experience led him to claim with unshakable certainty that our individual consciousness is far greater than our normal mundane experience of it - Having a science and engineering background, Faggin has set out to validate his experiences with a new scientific theory of Consciousness, Information and Physicality (CIP) and Operational Probabilistic Theory (OPT)
to - Frederico Faggin's website - https://hyp.is/JTGs6lr9Ee-K8-uSXD3tsg/www.fagginfoundation.org/what-we-do/j - Federico Faggin and paper: - Hard Problem and Free Will: - an information-theoretical approach - https://hyp.is/styU2lofEe-11hO02KJC8w/link.springer.com/chapter/10.1007/978-3-030-85480-5_5
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with six postulates that are purely informational you can derive all the basic equations of physics and so that's a major piece of work because it demonstrated the intuition of John Wheeler that in 1995 said the famous it from bit so wheeler into it that matter is actually most likely produced by information
for - quantum physics - John Wheeler's theory - validating
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it's evolution of this state of this Quantum state in hilber space which then will allow us to compute the probabilities of what you might measure in space and time it will not tell you generally what you will measure he only tells you the probability what you can measure and that's crazy in a sense right because classical objects you can actually described trajectory so that at any point in time you can tell position momentum and so on but not for Quantum Quantum system so so this fundamental difference will will see that is essential to describe why the Consciousness and Free Will must be must be Quantum phenomena
for - consciousness - quantum explanation depends on - difference between - quantum physics - and classical physics
consciousness - quantum explanation depends on - difference between - quantum physics - and classical physics - quantum state evolves in Hilbert space - enables computation of probabilities of what one measures in space-time - but doesn't tell you what you will measure - This difference is critical for describing consciousness as a quantum phenomena
Tags
- to - Federico Faggin's website
- to Federico Faggin & Giacomo Mauro D'Gariano 2021 paper - Hard Problem and Free Will: an information-theoretical approach
- Federico Faggin - quantum physics - consciousness
- definition - Operational Probabilistic Theory (OPT)
- consciousness - quantum explanation depends on - difference between - quantum physics - and classical physics
- definition - Consciousness Information and Physicality (CIP)
- quantum physics - John Wheeler's theory - validating
- consciousness scientist - awakening experience
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- Oct 2023
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twitter.com twitter.com
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If you look at George Ellis’s Google Scholar, it’s clear that he has gone down the deep end a while ago. What is it with these cosmologists? (Ahem, Penrose). Suddenly they discover quantum physics and it’s the solution to consciousness. Or gravity makes wavefunctions collapse.
quote from Christoph Adami at https://twitter.com/ChristophAdami/status/1711583362647814485
Re: George Ellis https://www.nature.com/articles/d41586-023-03061-y
Physicists and quantum mechanics as solution to consciousness.
See also: Physics in Mind: A Quantum View of the Brain by Werner R. Loewenstein
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- Feb 2023
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www.youtube.com www.youtube.com
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| physics/mathematics | Classical Physics | Quantum Mechanics |<br /> |---|---|---|<br /> | State Space | fields satisfying equations of laws<br>- the state is given by a point in the space | vector in a complex vector space with a Hermitian inner product (wavefunctions) |<br /> | Observables | functions of fields<br>- usually differential equations with real-valued solutions | self-adjoint linear operators on the state space<br>- some confusion may result when operators don't commute; there are usually no simple (real-valued) numerical solutions |
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One of the problems in approaching quantum gravity is the choice for how to best represent it mathematically. Most of quantum mechanics is algebraic in nature but gravity has a geometry component which is important. (restatement)
This is similar to the early 20th century problem of how to best represent quantum mechanics: as differential equations or using group theory/Lie algebras?
This prompts the question: what other potential representations might also work?
Could it be better understood/represented using Algebraic geometry or algebraic topology as perspectives?
[handwritten notes from 2023-02-02]
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- self-adjoint operators
- commutativity
- quantum mechanics
- algebraic geometry
- classical physics vs. quantum mechanics
- gruppenpest
- algebraic topology
- state spaces
- fields
- open questions
- quantum gravity
- Hermitian inner products
- observables
- differential equations
- complex vector spaces
- quantum observables
- mathematical physics
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royalsocietypublishing.org royalsocietypublishing.org
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Bell’s theorem is aboutcorrelations (joint probabilities) of stochastic real variables and therefore doesnot apply to quantum theory, which neither describes stochastic motion nor usesreal-valued observables
strong statement, what do people think about this? is it accepted by anyone or dismissed?
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Principle (The Born rule). Given an observable O and two unit-norm states|ψ1〉 and |ψ2〉 that are eigenvectors of O with distinct eigenvalues λ1 and λ2O|ψ1〉 = λ1|ψ1〉, O|ψ2〉 = λ2|ψ2〉the complex linear combination statec1|ψ1〉 + c2|ψ2〉will not have a well-defined value for the observable O. If one attempts tomeasure this observable, one will get either λ1 or λ2, with probabilities|c21||c21| + |c22|and |c22||c21| + |c22|respectively.
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Weyl’s insight that quantization of a classical system crucially involves un-derstanding the Lie groups that act on the classical phase space and the uni-tary representations of these groups
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- Jan 2023
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inference-review.com inference-review.com
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Woit, Peter. Quantum Theory, Groups and Representations: An Introduction. Revised and Expanded version [2022]. Springer, 2017. https://www.math.columbia.edu/~woit/QM/qmbook.pdf.
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- Nov 2022
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Diseases don’t have to follow rules.
Reminds me of something Carl Sagen said - I think it was Sagen though might have been Feynman - in the context of quantum physics, that the universe is under no obligation to observe our rules, or something like that.
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- Nov 2021
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thenewpress.com thenewpress.com
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“Because physicists started out with the imaginary, unstable cube as their model instead of the real-world stable tetrahedron, they got into all these imaginary numbers and other complicated and completely unnecessary mathematics. It would be so much simpler if they started out with the tetrahedron, which is nature’s best structure, the simplest structural system in Universe.
(Just as an aside, to remember later when you’re studying physics in school, I want to point out that the tetrahedron is also equivalent to the quantum unit of physics, and to the electron.)”
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- Oct 2021
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timeenergyresources.com timeenergyresources.com
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If the Bauhaus existed today, what would it look like?
What would the Bauhaus do differently, learning from the mistakes of the past and how modernism was co-opted by neoliberal capitalism.
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- Apr 2021
- Oct 2020
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www.quantamagazine.org www.quantamagazine.org
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The notion that counting more shapes in the sky will reveal more details of the Big Bang is implied in a central principle of quantum physics known as “unitarity.” Unitarity dictates that the probabilities of all possible quantum states of the universe must add up to one, now and forever; thus, information, which is stored in quantum states, can never be lost — only scrambled. This means that all information about the birth of the cosmos remains encoded in its present state, and the more precisely cosmologists know the latter, the more they can learn about the former.
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- Jul 2019
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en.wikipedia.org en.wikipedia.org
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unitary operator is a surjective bounded operator
Why must unitary operator only be surjective? Why not bijective?
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Annotators
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- Mar 2018
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www.tcm.phy.cam.ac.uk www.tcm.phy.cam.ac.uk
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A new theory of the relationship of mind and matter, David Bohm
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- Oct 2015
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the strongest evidence yet to support the most fundamental claims of the theory of quantum mechanics about the existence of an odd world formed by a fabric of subatomic particles, where matter does not take form until it is observed and time runs backward as well as forward.
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