TY  - BOOK
AU  - Montwill,Alex
AU  - Breslin,Ann
TI  - The quantum adventure: does God play dice? 
SN  - 9781848166493
AV  - QC174 .Q368 2012
PY  - 2012///
CY  - London
PB  - Imperial College Press
KW  - Quantum theory
KW  - Popular works
KW  - Electronic Books
N1  - 2; Ch. 1. Prehistory --; Isaac Newton --; chapter 2. Preparing for quantum mechanics --; chapter 3. The pre-quantum atom --; a temporary solution --; chapter 4. Max Planck --; the birth of the quantum adventure --; chapter 5. Light --; wave or projectile? --; chapter 6. Einstein enters the scene --; chapter 7. Niels Bohr introduces the quantum into atomic physics --; chapter 8. Werner Heisenberg --; an equation for uncertainty --; chapter 9. Louis de Broglie --; matter waves --; chapter 10. Erwin Schrodinger --; wave mechanics --; chapter 11. Eigenstates --; the theory of the seen and unseen --; chapter 12. Eigenstates in the subnuclear world --; chapter 13. Paul Dirac --; tying things together --; chapter 14. Richard Feynman --; the strange theory of light and matter --; chapter 15. Quantum reality --; the world of the absurd epilogue --; Milestones; 2; b
N2  - Quantum theory revolutionized physics at the beginning of the last century. Einstein was one of its originators, but as the implications of the theory emerged, he began to have doubts. Are the most basic physical processes based on probability? Is the Universe governed by chance? Do physical objects have an independent existence or do they exist only in our perception? The ramifications may appear bizarre but they are inherent to this perplexing subject. The Quantum Adventure deals with the birth and growth of quantum mechanics. It explains the "classical dilemma" which faced physics at the start of the 20th Century and goes on to show how quantum mechanics emerged and flourished. Difficult and abstract concepts are treated with minimal mathematics and maximal physical imagery. Snippets of information about the dramatis personae are woven into the text and add color to what is traditionally perceived as a complex and challenging topic. A must-read for anyone interested in quantum physics
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