Schrodinger
Herausgeber: Kilmister, C. W.
Schrodinger
Herausgeber: Kilmister, C. W.
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In this volume, prepared in 1987 to celebrate the centenary of Schr dinger's birth, leading figures have collaborated to produce this survey of the man and his science.
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In this volume, prepared in 1987 to celebrate the centenary of Schr dinger's birth, leading figures have collaborated to produce this survey of the man and his science.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 264
- Erscheinungstermin: 26. August 2008
- Englisch
- Abmessung: 229mm x 152mm x 16mm
- Gewicht: 434g
- ISBN-13: 9780521379298
- ISBN-10: 0521379296
- Artikelnr.: 25427401
- Verlag: Cambridge University Press
- Seitenzahl: 264
- Erscheinungstermin: 26. August 2008
- Englisch
- Abmessung: 229mm x 152mm x 16mm
- Gewicht: 434g
- ISBN-13: 9780521379298
- ISBN-10: 0521379296
- Artikelnr.: 25427401
1. Introduction C. W. Kilmister
2. Boltzmann's influence on Schrödinger Dieter Flamm
3. Schrödinger's original interpretation of the Schrödinger equation: a rescue attempt Jon Dorling
4. Are there quantum jumps? J. S. Bell
5. Square root of minus one, complex phases and Erwin Schrödinger Chen Ning Yung
6. Consequences of the Schrödinger equation for atomic and molecular physics W. E. Thirring
7. Molecular dynamics: from H + H, to biomolecules Martin Karplus
8. Orbital presentation of chemical reactions Kenichi Fukui
9. Quantum chemistry A. D. Buckingham
10. Eamon de Valera, Erwin Schrödinger and the Dublin Institute Sir William McCrea
11. Do bosons condense? J. T. Lewis
12. Schrödinger's nonlinear optics James McConnell
13. Schrödinger's unified field theory seen 40 years later O. Hittmair
14. The Schrödinger equation of the Universe S. W. Hawking
15. Overview of particle physics A. Salam
16. Gauge fields, topological defects and cosmology T. W. B. Kibble
17. Quantum theory and astronomy M. J. Seaton
18. Schrödinger's contributions to chemistry and biology Linus Pawling
19. Erwin Schrödinger's What is Life? and molecular biology M. F. Perutz.
2. Boltzmann's influence on Schrödinger Dieter Flamm
3. Schrödinger's original interpretation of the Schrödinger equation: a rescue attempt Jon Dorling
4. Are there quantum jumps? J. S. Bell
5. Square root of minus one, complex phases and Erwin Schrödinger Chen Ning Yung
6. Consequences of the Schrödinger equation for atomic and molecular physics W. E. Thirring
7. Molecular dynamics: from H + H, to biomolecules Martin Karplus
8. Orbital presentation of chemical reactions Kenichi Fukui
9. Quantum chemistry A. D. Buckingham
10. Eamon de Valera, Erwin Schrödinger and the Dublin Institute Sir William McCrea
11. Do bosons condense? J. T. Lewis
12. Schrödinger's nonlinear optics James McConnell
13. Schrödinger's unified field theory seen 40 years later O. Hittmair
14. The Schrödinger equation of the Universe S. W. Hawking
15. Overview of particle physics A. Salam
16. Gauge fields, topological defects and cosmology T. W. B. Kibble
17. Quantum theory and astronomy M. J. Seaton
18. Schrödinger's contributions to chemistry and biology Linus Pawling
19. Erwin Schrödinger's What is Life? and molecular biology M. F. Perutz.
1. Introduction C. W. Kilmister
2. Boltzmann's influence on Schrödinger Dieter Flamm
3. Schrödinger's original interpretation of the Schrödinger equation: a rescue attempt Jon Dorling
4. Are there quantum jumps? J. S. Bell
5. Square root of minus one, complex phases and Erwin Schrödinger Chen Ning Yung
6. Consequences of the Schrödinger equation for atomic and molecular physics W. E. Thirring
7. Molecular dynamics: from H + H, to biomolecules Martin Karplus
8. Orbital presentation of chemical reactions Kenichi Fukui
9. Quantum chemistry A. D. Buckingham
10. Eamon de Valera, Erwin Schrödinger and the Dublin Institute Sir William McCrea
11. Do bosons condense? J. T. Lewis
12. Schrödinger's nonlinear optics James McConnell
13. Schrödinger's unified field theory seen 40 years later O. Hittmair
14. The Schrödinger equation of the Universe S. W. Hawking
15. Overview of particle physics A. Salam
16. Gauge fields, topological defects and cosmology T. W. B. Kibble
17. Quantum theory and astronomy M. J. Seaton
18. Schrödinger's contributions to chemistry and biology Linus Pawling
19. Erwin Schrödinger's What is Life? and molecular biology M. F. Perutz.
2. Boltzmann's influence on Schrödinger Dieter Flamm
3. Schrödinger's original interpretation of the Schrödinger equation: a rescue attempt Jon Dorling
4. Are there quantum jumps? J. S. Bell
5. Square root of minus one, complex phases and Erwin Schrödinger Chen Ning Yung
6. Consequences of the Schrödinger equation for atomic and molecular physics W. E. Thirring
7. Molecular dynamics: from H + H, to biomolecules Martin Karplus
8. Orbital presentation of chemical reactions Kenichi Fukui
9. Quantum chemistry A. D. Buckingham
10. Eamon de Valera, Erwin Schrödinger and the Dublin Institute Sir William McCrea
11. Do bosons condense? J. T. Lewis
12. Schrödinger's nonlinear optics James McConnell
13. Schrödinger's unified field theory seen 40 years later O. Hittmair
14. The Schrödinger equation of the Universe S. W. Hawking
15. Overview of particle physics A. Salam
16. Gauge fields, topological defects and cosmology T. W. B. Kibble
17. Quantum theory and astronomy M. J. Seaton
18. Schrödinger's contributions to chemistry and biology Linus Pawling
19. Erwin Schrödinger's What is Life? and molecular biology M. F. Perutz.