Gravity illustrated (Ph.D. Thesis)
Rickard Jonsson
This thesis deals with essentially four different topics within general relativity: pedagogical techniques for illustrating curved spacetime, inertial forces, gyroscope precession and optical geometry. Concerning the pedagogical techniques, I investigate two distinctly different methods, the dual and the absolute method.
Contents:
1. Introduction
2. An introduction to Einstein's gravity
3. Making illustrations
4. Making models
5. Spacetime visualization
6. Inertial forces
7. Gyroscope precession
8. Optical geometry
9. Conclusion and outlook
Comments on the research papers:
10. A spherical interior dual metric
11. The absolute visualization
12. Kinematical invariants
13. Lie transport and Lie differentiation
Papers:
I. Embedding spacetime via a geodesically equivalent metric of euclidean signature
II. Visualizing curved spacetime
III. Inertial forces and the foundations of optical geometry
IV. An intuitive approach to inertial forces and the centrifugal force paradox in general relativity
V. A covariant formalism of spin precession with respect to a reference congruence
VI. Gyroscope precession in special and general relativity from basic principles
VII. Generalizing optical geometry
IX. Optical geometry across the horizon
Contents:
1. Introduction
2. An introduction to Einstein's gravity
3. Making illustrations
4. Making models
5. Spacetime visualization
6. Inertial forces
7. Gyroscope precession
8. Optical geometry
9. Conclusion and outlook
Comments on the research papers:
10. A spherical interior dual metric
11. The absolute visualization
12. Kinematical invariants
13. Lie transport and Lie differentiation
Papers:
I. Embedding spacetime via a geodesically equivalent metric of euclidean signature
II. Visualizing curved spacetime
III. Inertial forces and the foundations of optical geometry
IV. An intuitive approach to inertial forces and the centrifugal force paradox in general relativity
V. A covariant formalism of spin precession with respect to a reference congruence
VI. Gyroscope precession in special and general relativity from basic principles
VII. Generalizing optical geometry
IX. Optical geometry across the horizon
年:
2004
出版:
Spacetime Edition
出版社:
Chalmers University of Technology and Goteborg University
语言:
english
页:
245
ISBN 10:
9172915196
ISBN 13:
9789172915190
文件:
PDF, 60.12 MB
IPFS:
,
english, 2004