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Sto caricando le informazioni... I principi fisici della teoria dei quanti (1930)di Werner Heisenberg
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The contributions of few contemporary scientists have been as far reaching in their effects as those of Nobel Laureate Werner Heisenberg. His matrix theory is one of the bases of modern quantum mechanics, while his "uncertainty principle" has altered our whole philosophy of science. In this classic, based on lectures delivered at the University of Chicago, Heisenberg presents a complete physical picture of quantum theory. He covers not only his own contributions, but also those of Bohr, Dirac, Bose, de Broglie, Fermi, Einstein, Pauli, Schrodinger, Somerfield, Rupp, ·Wilson, Germer, and others in a text written for the physical scientist who is not a specialist in quantum theory or in modern mathematics. Partial contents: introduction (theory and experiment, fundamental concepts); critique of physical concepts of the corpuscular theory (uncertainty relations and their illustration); critique of the physical concepts of the wave theory (uncertainty relations for waves, discussion of an actual measurement of the electromagnetic field); statistical interpretation of quantum theory (mathematical considerations, interference of probabilities, Bohr's complementarity); discussion of important experiments (C. T. R. Wilson, diffraction , Einstein-Rupp, emission, absorption and dispersion of radiation, interference and conservation laws, Compton effect, radiation fluctuation phenomena, relativistic formulation of the quantum theory). An 80-page appendix on the mathematical apparatus of the quantum theory is provided for the specialist. Non sono state trovate descrizioni di biblioteche |
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Google Books — Sto caricando le informazioni... GeneriSistema Decimale Melvil (DDC)530.1Natural sciences and mathematics Physics Physics Theoretical PhysicsClassificazione LCVotoMedia:
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Mathematics works like that. Imaginary numbers are a difficult subject to teach if you just "drop it" on students. But if you show how the search for real roots of quadratics lead us through Zero, the negative numbers, and finally to imaginary numbers - they get it.
Well, this was as far as I got.
I understand the concept of the uncertainty principle in that measuring a particle necessarily affects it. I was hoping to explore the roots of the "observer effect" by seeing what else might have been implied by Heisenberg in his own explanation.
I couldn't follow it. I really tried. And I like reading this stuff. Maybe it's lost in translation. Maybe I should've been born in the 19th century. This is a real wall for me. And I dare not contemplate studying physics formally if I can't follow a foundational treatise from 1930. Good luck.