Richard Feynman (1918-1988) argues in his famous Lectures on Physics (1961/62) that finite accuracy of measurement also makes the future very unpredictable, because even very small errors in prediction have cascading effects that lead to vastly different outcomes. Thus, the difference between a classical interpretation (deterministic) and a quantum-mechanical explanation (indeterminisitc) is not as categorical […]

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Richard Feynman is a physicist who won the Nobel Prize,  worked on the Manhattan Project, he played a key role in explaining the Space Shuttle Challenger disaster, and he is known for the “Feynman diagrams” that symbolize particle collisions. He gave famous introductory lectures on physics, which is now available online. The online edition features […]

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David Joseph Bohm lived from 20 December 1917 to 27 October 1992. He was an American theoretical physicist who contributed innovative and unorthodox ideas to quantum theory, philosophy of mind, and neuro-psychology. He is considered to be one of the most significant theoretical physicists of the 20th century. He was a good friend of Einstein. […]

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Here are some quotes about the controversy between reductionism and emergence as basic paradigm for physics. Robert Laughlin: A Different Universe: Reinventing Physics from the Bottom Down. 2005. From the Introduction: “Much as I dislike the idea of ages, I think a good case can be made that science has now moved from an Age of […]

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Source: Mind 49: 433-460. 1. The Imitation Game I propose to consider the question, “Can machines think?” This should begin with definitions of the meaning of the terms “machine” and “think.” The definitions might be framed so as to reflect so far as possible the normal use of the words, but this attitude is dangerous, […]

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Source: This is a chapter from Science & Method (1897). Even today, it’s an interesting book to read. I. IT is impossible to picture empty space. All our efforts to imagine pure space from which the changing images of material objects are excluded can only result in a representation in which highly-coloured surfaces, for instance, […]

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In his newest book, Radical Abundance: How a Revolution in Nanotechnology Will Change Civilization, 2013, he tells the history of nanotechnology from its beginnings to today, and then he turns towards the future: What can we expect from the accelerating breakthroughs generated by nano-technological research? Will it benefit humanity, or cause us harm? He is very optimistic, and his answer is given in the title: We are going to experience radical abundance based on these technological breakthroughs.

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