P A Davidson
Introduction to Magnetohydrodynamics
P A Davidson
Introduction to Magnetohydrodynamics
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Comprehensive textbook prioritising physical ideas over mathematical detail. New material includes fusion plasma magnetohydrodynamics.
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Comprehensive textbook prioritising physical ideas over mathematical detail. New material includes fusion plasma magnetohydrodynamics.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- 2nd Revised edition
- Seitenzahl: 572
- Erscheinungstermin: 12. September 2017
- Englisch
- Abmessung: 254mm x 182mm x 38mm
- Gewicht: 1161g
- ISBN-13: 9781107160163
- ISBN-10: 1107160162
- Artikelnr.: 45377126
- Verlag: Cambridge University Press
- 2nd Revised edition
- Seitenzahl: 572
- Erscheinungstermin: 12. September 2017
- Englisch
- Abmessung: 254mm x 182mm x 38mm
- Gewicht: 1161g
- ISBN-13: 9781107160163
- ISBN-10: 1107160162
- Artikelnr.: 45377126
P. A. Davidson is a professor in the Department of Engineering at the University of Cambridge. He has authored over 100 publications in the fields of magnetohydrodynamics and turbulence, including the books Turbulence: An Introduction for Scientists and Engineers (2015) and Turbulence in Rotating, Stratified and Electrically Conducting Fluids (2013). He is also an associate editor of the Journal of Fluid Mechanics.
Part I. From Maxwell's Equations to Magnetohydrodynamics: 1. A qualitative overview of MHD
2. The governing equations of electrodynamics
3. A first course in fluid dynamics
4. The governing equations of MHD
Part II. The Fundamentals of Incompressible MHD: 5. Kinematics ¿ advection, diffusion and intensification of magnetic fields
6. Dynamics at low magnetic Reynolds number
7. Dynamics at high magnetic Reynolds number
8. An introduction to turbulence
9. MHD turbulence at low and high magnetic Reynolds number
Part III. Applications in Engineering and Materials: 10. The world of metallurgical MHD
11. The generation and suppression of motion in castings
12. Axisymmetric flows driven by the injection of current
13. MHD instabilities in aluminium reduction cells
Part IV. Applications in Physics: 14. The geodynamo
15. Stellar magnetism
16. Plasma containment in fusion reactors
Appendix A. Vector identities and theorems
Appendix B. Physical properties of liquid metals
References
Index.
2. The governing equations of electrodynamics
3. A first course in fluid dynamics
4. The governing equations of MHD
Part II. The Fundamentals of Incompressible MHD: 5. Kinematics ¿ advection, diffusion and intensification of magnetic fields
6. Dynamics at low magnetic Reynolds number
7. Dynamics at high magnetic Reynolds number
8. An introduction to turbulence
9. MHD turbulence at low and high magnetic Reynolds number
Part III. Applications in Engineering and Materials: 10. The world of metallurgical MHD
11. The generation and suppression of motion in castings
12. Axisymmetric flows driven by the injection of current
13. MHD instabilities in aluminium reduction cells
Part IV. Applications in Physics: 14. The geodynamo
15. Stellar magnetism
16. Plasma containment in fusion reactors
Appendix A. Vector identities and theorems
Appendix B. Physical properties of liquid metals
References
Index.
Part I. From Maxwell's Equations to Magnetohydrodynamics: 1. A qualitative overview of MHD
2. The governing equations of electrodynamics
3. A first course in fluid dynamics
4. The governing equations of MHD
Part II. The Fundamentals of Incompressible MHD: 5. Kinematics ¿ advection, diffusion and intensification of magnetic fields
6. Dynamics at low magnetic Reynolds number
7. Dynamics at high magnetic Reynolds number
8. An introduction to turbulence
9. MHD turbulence at low and high magnetic Reynolds number
Part III. Applications in Engineering and Materials: 10. The world of metallurgical MHD
11. The generation and suppression of motion in castings
12. Axisymmetric flows driven by the injection of current
13. MHD instabilities in aluminium reduction cells
Part IV. Applications in Physics: 14. The geodynamo
15. Stellar magnetism
16. Plasma containment in fusion reactors
Appendix A. Vector identities and theorems
Appendix B. Physical properties of liquid metals
References
Index.
2. The governing equations of electrodynamics
3. A first course in fluid dynamics
4. The governing equations of MHD
Part II. The Fundamentals of Incompressible MHD: 5. Kinematics ¿ advection, diffusion and intensification of magnetic fields
6. Dynamics at low magnetic Reynolds number
7. Dynamics at high magnetic Reynolds number
8. An introduction to turbulence
9. MHD turbulence at low and high magnetic Reynolds number
Part III. Applications in Engineering and Materials: 10. The world of metallurgical MHD
11. The generation and suppression of motion in castings
12. Axisymmetric flows driven by the injection of current
13. MHD instabilities in aluminium reduction cells
Part IV. Applications in Physics: 14. The geodynamo
15. Stellar magnetism
16. Plasma containment in fusion reactors
Appendix A. Vector identities and theorems
Appendix B. Physical properties of liquid metals
References
Index.