The Story of Quantum MechanicsCourier Corporation, 2003 M01 1 - 332 páginas Written by a respected Harvard physicist, this introductory account of the evolution of quantum physics also explores the subject's philosophical implications. The opening chapters trace the development of physics from antiquity onward, chronicling the origins of quantum mechanics and the ways in which quantum theory was used to address previously unsolved problems and to interpret observable atomic phenomena. Succeeding chapters are devoted to matters at the forefront of research pertaining to elementary particles, and the text concludes with a look at the old and new concepts of physical science and their relationship to issues of philosophy and religion - including considerations of causality, determinism, and free will. 1968 ed. 36 black-and-white figures. 12 halftones. |
Contenido
THE SCIENCE OF MOTION | 3 |
THE HISTORY OF ATOMISM | 13 |
ATOMIC STRUCTURE | 24 |
RADIANT ENERGY | 40 |
13 | 74 |
24 | 112 |
ORGANIZATION OF PARTICLES | 139 |
PARTICLE CHARACTERISTICS | 149 |
MORE THEORIES | 198 |
PHILOSOPHICAL IMPLICATIONS OF | 218 |
CAUSALITY | 248 |
FREE WILL | 264 |
DETERMINISM FREE WILL AND | 289 |
GLOSSARY OF SCIENTIFIC TERMS | 303 |
FOR ADDITIONAL READING | 315 |
321 | |
Términos y frases comunes
acts alpha particles angular momentum antiparticles atom model atomic number baryons basic behavior Bohr Broglie causality centimeter century chemical classical laws classical mechanics classical physics classical science complex concept concerning conservation laws decay determined deterministic developed direction discussed effect electric charge electromagnetic electron-volts electrons elementary particles elements emission emitted entities ethical evidence example existence experimental experiments field given gravitational Heisenberg human hydrogen idea important isotopic spin kaons large number leptons light waves magnetic mass mathematical matter waves mesons metaphysical molecules motion moving nature neutrinos neutron Newton nuclear nucleus objects observed occur orbits oscillators particle interactions phenomena philosophers photons physicists pions Planck position possible precise prediction problem produce properties quantized quantum mechanics quarks radiant energy radiation radioactive relation resonance scientific scientists sequence space spin statistical strong force structure theory things thought tion uncertainty principle universe values various velocity volitions wave patterns wavelength zero