Eddington: The Most Distinguished Astrophysicist of His TimeCambridge University Press, 24 nov 1983 - 64 páginas This book is based on two lectures given in Cambridge by Professor Chandrasckhar to mark the centenary of the birth of Arthur Stanley Eddington. The text describes Eddington's major contributions to astrophysics and to general relativity. The approach is not technical, although it will mainly be of interest to professionals in astronomy, applied mathematics and the history of modern astronomy. |
Otras ediciones - Ver todo
Eddington: The Most Distinguished Astrophysicist of His Time Subrahmanyan Chandrasekhar,S. Chandrasekhar No hay ninguna vista previa disponible - 1983 |
Eddington: The Most Distinguished Astrophysicist of his Time S. Chandrasekhar No hay ninguna vista previa disponible - 2009 |
Términos y frases comunes
absorption-lines Arthur Stanley Eddington atom black holes British Association calculations Cambridge Cepheid Chandrasekhar classical relativity Clifford algebras conclusion conscientious objector cosmical constant cosmological model Cottingham density deSitter deSitter's universe distribution E-numbers eclipse Eddington considered Eddington's contributions Eddington's interests Einstein's equation Einstein's prediction Einstein's universe electrons equilibrium expeditions fact Fowler's fundamental theory G. H. Hardy gas pressure globes Greenwich helium hydrogen hypothesis Ibid Internal Constitution ionization J. J. Thomson Kapteyn Kendal Larmor later lecture mass Mathematical Theory natural constants Newtonian theory observations Observatory paper perfect gas physical physicist problem proper motions radiation pressure radius recall referred relation relativistic degeneracy formula relativity theory Royal Astronomical Society Science scientific Sir Frank Dyson solution source of stellar speculation standard of rest stars statement static stellar energy stellar opacity structure Swarthmore Lecture Theory of Gravitation theory of relativity tion Trinity truth University Press velocities Weyl's theory