'On the whole, the selection of the material and the general structure of the book is quite traditional. The two notable exceptions are the careful exposition of gravitomagnetism and the informative discussion of the gauge approach to gravity; both topics are not usually included in textbooks on general relativity … I enjoyed … reading this book [a lot]. Written with great care and accuracy in a lively and beautiful style … [it] will be undoubtedly appreciated by students, researchers and lecturers.' General Relativity and Gravitation

Preface; Notation; Important formulae and physical constants; 1. Introduction; 2. Special relativity, non-inertial effects and electromagnetism; 3. Differential geometry I: vectors, forms and absolute differentiation; 4. Differential geometry II: geodesics and curvature; 5. Einstein field equations, the Schwarzschild solution and experimental test of general relativity; 6. Gravitomagnetic effects: gyroscopes and clocks; 7. Gravitational collapse and black holes; 8. Action principles, conservation laws and the Cauchy problem; 9. Gravitational radiation; 10. Cosmology; 11. Gravitation and field theory; References; Index.