The emperor's new mind : concerning computers, minds, and the laws of physics

The emperor's new mind : concerning computers, minds, and the laws of physics / Roger Penrose ; foreword by Martin Gardner.

For many decades, the proponents of `artificial intelligence' have maintained that computers will soon be able to do everything that a human can do. In his bestselling work of popular science, Sir Roger Penrose takes us on a fascinating roller-coaster ride through the basic principles of physic...

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Bibliographic Details
Main Author: Penrose, Roger
Format: eBook
Language:English
Published: Oxford : Oxford University Press, 1989.
Subjects:
Artificial intelligence.
Thought and thinking.
Physics > Philosophy.
Science > Philosophy.
Computers.
Electronic digital computers.
artificial intelligence.
thinking.
computers.
COMPUTERS > Enterprise Applications > Business Intelligence Tools.
COMPUTERS > Intelligence (AI) & Semantics.
Electronic digital computers
Artificial intelligence
Computers
Physics > Philosophy
Science > Philosophy
Thought and thinking
Künstliche Intelligenz
Natuurkunde.
Kosmologie.
Wiskunde.
Filosofie.
Inteligência artificial.
Online Access:Click for online access
Table of Contents:
  • Cover; Contents; Prologue; 1 CAN A COMPUTER HAVE A MIND?; Introduction; The Turing test; Artificial intelligence; An AI approach to 'pleasure' and 'pain'; Strong AI and Searle's Chinese room; Hardware and software; 2 ALGORITHMS AND TURING MACHINES; Background to the algorithm concept; Turing's concept; Binary coding of numerical data; The Church-Turing Thesis; Numbers other than natural numbers; The universal Turing machine; The insolubility of Hilbert's problem; How to outdo an algorithm; Church's lambda calculus; 3 MATHEMATICS AND REALITY; The land of Tor'Bled-Nam; Real numbers.
  • How many real numbers are there?'Reality' of real numbers; Complex numbers; Construction of the Mandelbrot set; Platonic reality of mathematical concepts?; 4 TRUTH, PROOF, AND INSIGHT; Hilbert's programme for mathematics; Formal mathematical systems; Gödel's theorem; Mathematical insight; Platonism or intuitionism?; Gödel-type theorems from Turing's result; Recursively enumerable sets; Is the Mandelbrot set recursive?; Some examples of non-recursive mathematics; Is the Mandelbrot set like non-recursive mathematics?; Complexity theory; Complexity and computability in physical things.
  • 5 THE CLASSICAL WORLDThe status of physical theory; Euclidean geometry; The dynamics of Galileo and Newton; The mechanistic world of Newtonian dynamics; Is life in the billiard-ball world computable?; Hamiltonian mechanics; Phase space; Maxwell's electromagnetic theory; Computability and the wave equation; The Lorentz equation of motion; runaway particles; The special relativity of Einstein and Poincaré; Einstein's general relativity; Relativistic causality and determinism; Computability in classical physics: where do we stand?; Mass, matter, and reality; 6 QUANTUM MAGIC AND QUANTUM MYSTERY.
  • Do philosophers need quantum theory?Problems with classical theory; The beginnings of quantum theory; The two-slit experiment; Probability amplitudes; The quantum state of a particle; The uncertainty principle; The evolution procedures U and R; Particles in two places at once?; Hilbert space; Measurements; Spin and the Riemann sphere of states; Objectivity and measurability of quantum states; Copying a quantum state; Photon spin; Objects with large spin; Many-particle systems; The 'paradox' of Einstein, Podolsky, and Rosen; Experiments with photons: a problem for relativity?
  • Schrödinger's equation Dirac's equation; Quantum field theory; Schrödinger's cat; Various attitudes in existing quantum theory; Where does all this leave us?; 7 COSMOLOGY AND THE ARROW OF TIME; The flow of time; The inexorable increase of entropy; What is entropy?; The second law in action; The origin of low entropy in the universe; Cosmology and the big bang; The primordial fireball; Does the big bang explain the second law?; Black holes; The structure of space-time singularities; How special was the big bang?; 8 IN SEARCH OF QUANTUM GRAVITY; Why quantum gravity?

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