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Relativity Made Relatively Easy Volume 2 General Relativity and Cosmology

Steane Andrew M.
Heftet / 2021 / Engelsk

Produktdetaljer

ISBN
9780192893543
Publisert
2021
Utgiver
Vendor
Oxford University Press
Vekt
1072 gr
Høyde
247 mm
Bredde
190 mm
Dybde
24 mm
Aldersnivå
U, 05
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
512

Forfatter
Steane Andrew M.

Biographical note

Andrew Steane is a Professor of Physics at the University of Oxford. He has conducted experimental and theoretical research into the foundations of physics and has performed pioneering quantum experiments with ultra-cold atomic clouds, as well as establishing the ion trap quantum computing program at Oxford. Professor Steane discovered quantum error correction and the CSS (Calderbank Shor Steane) codes and he is a recipient of the Maxwell Medal and Prize of the Institute of Physics, and the Trotter Prize of Texas A&M University. He regularly lectures on relativity and other areas of physics and has published two undergraduate physics textbooks and two books on science and religion with Oxford University Press.

Relativity Made Relatively Easy Volume 2 General Relativity and Cosmology

Steane Andrew M.
Heftet / 2021 / Engelsk
Steane Andrew M.
Heftet / 2021 / Engelsk
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Review from previous edition As Albert Einstein once emphasized, one should make things as simple as possible, but not simpler. Andrew Steane follows the master's recommendation and presents a relatively easy tour through the wonderful worlds of Special and General Relativity. He guides the reader patiently and pedagogically through the fundamental concepts as well as their main applications. This book is of great value for both students and lecturers.

Claus Kiefer, Institute for Theoretical Physics, University of Cologne

Steane's book provides a physically oriented introduction to Special Relativity and its consequences, which does not compromise rigour in its exposition. I do not know of any other textbook on the topic covering such a breadth of topics at a detailed, but at the same time accessible and insightful level. In particular, the discussion of electromagnetism in the context of Special Relativity - where Relativity really comes into life - is excellent. The book contains an interesting and original selection of exercises which will help the dedicated reader to gain mastery in the details of the theory.

Juan A. Valiente Kroon, School of Mathematical Sciences, Queen Mary, University of London

Offering a uniquely broad and thorough coverage of one of the standard tools of modern physics, Andrew Steane's <i>Relativity Made Relatively Easy</i> is an approachable and comprehensive coverage of Einstein's most famous contribution to science. It is sure to become a favorite resource for students and researchers alike.

Warren Anderson, Center for Gravitation and Cosmology, University of Wisconsin-Milwaukee

Se alle

The book truly has the potential to become a pivotal part of scholarship in physics. This lucid and thoughtful approach to taking the reader pedagogically through how Einsteinian relativity works, and how it supersedes the Newtonian construction with respect to explaining the basic principles of physical law, is comprehensive, thorough, innovative, challenging, and in many cases original. Steane's approach fills a gap in what in many university undergraduate courses has become a topic considered rather too briefly and in a rather too stereotyped manner, and which thereby has always denied physics graduates of the deeper insight into how Lorentz invariance is at the root of almost everything.

John Dainton, Sir James Chadwick Professor of Physics, University of Liverpool

Following on from a previous volume on Special Relativity, Andrew Steane's second volume on General Relativity and Cosmology is aimed at advanced undergraduate or graduate students undertaking a physics course, and encourages them to expand their knowledge of Special Relativity. Beginning with a survey of the main ideas, the textbook goes on to give the methodological foundations to enable a working understanding of astronomy and gravitational waves (linearized approximation, differential geometry, covariant differentiation, physics in curved spacetime). It covers the generic properties of horizons and black holes, including Hawking radiation, introduces the key concepts in cosmology and gives a grounding in classical field theory, including spinors and the Dirac equation, and a Lagrangian approach to General Relativity. The textbook is designed for self-study and is aimed throughout at clarity, physical insight, and simplicity, presenting explanations and derivations in full, and providing many explicit examples.
Les mer
Aimed at advanced undergraduate or graduate physics students, the book aims to give a working understanding of astronomy and gravitational waves, as well as introducing the reader to the key concepts in cosmology and classical field theory.
Les mer
1: Preface 2: Terminology and notation 3: The elements of general relativity 4: An introductory example: the uniform static field 5: Life in a rotating world 6: Linearized general relativity 7: Slow stationary sources 8: Gravitational waves 9: Manifolds 10: Vectors on manifolds 11: The affine connection 12: Further useful ideas 13: Tensors 14: Parallel transport and geodesics 15: Physics in curved spacetime 16: Curvature 17: The Einstein field equation 18: Schwarzschild-Droste solution 19: Further spherically symmetric solutions 20: Rotating bodies; the Kerr metric 21: Black holes 22: Black hole thermodynamics 23: Cosmology 24: Cosmological dynamics 25: The growth of structure 26: Observational cosmology 27: The very early universe 28: First steps in classical field theory 29: Lagrangian mechanics for fields 30: Conclusion Free
Les mer
Review from previous edition As Albert Einstein once emphasized, one should make things as simple as possible, but not simpler. Andrew Steane follows the master's recommendation and presents a relatively easy tour through the wonderful worlds of Special and General Relativity. He guides the reader patiently and pedagogically through the fundamental concepts as well as their main applications. This book is of great value for both students and lecturers.
Les mer
Andrew Steane is a Professor of Physics at the University of Oxford. He has conducted experimental and theoretical research into the foundations of physics and has performed pioneering quantum experiments with ultra-cold atomic clouds, as well as establishing the ion trap quantum computing program at Oxford. Professor Steane discovered quantum error correction and the CSS (Calderbank Shor Steane) codes and he is a recipient of the Maxwell Medal and Prize of the Institute of Physics, and the Trotter Prize of Texas A&M University. He regularly lectures on relativity and other areas of physics and has published two undergraduate physics textbooks and two books on science and religion with Oxford University Press.
Les mer
Includes chapters on gravitational waves and black holes Features a large number of processes and results derived in full as well as clear explanations designed to work for self-study Includes plenty of diagrams, exercises, and tutorial inserts to aid comprehension
Les mer

Relaterte produkter

Review from previous edition As Albert Einstein once emphasized, one should make things as simple as possible, but not simpler. Andrew Steane follows the master's recommendation and presents a relatively easy tour through the wonderful worlds of Special and General Relativity. He guides the reader patiently and pedagogically through the fundamental concepts as well as their main applications. This book is of great value for both students and lecturers.

Claus Kiefer, Institute for Theoretical Physics, University of Cologne

Steane's book provides a physically oriented introduction to Special Relativity and its consequences, which does not compromise rigour in its exposition. I do not know of any other textbook on the topic covering such a breadth of topics at a detailed, but at the same time accessible and insightful level. In particular, the discussion of electromagnetism in the context of Special Relativity - where Relativity really comes into life - is excellent. The book contains an interesting and original selection of exercises which will help the dedicated reader to gain mastery in the details of the theory.

Juan A. Valiente Kroon, School of Mathematical Sciences, Queen Mary, University of London

Offering a uniquely broad and thorough coverage of one of the standard tools of modern physics, Andrew Steane's <i>Relativity Made Relatively Easy</i> is an approachable and comprehensive coverage of Einstein's most famous contribution to science. It is sure to become a favorite resource for students and researchers alike.

Warren Anderson, Center for Gravitation and Cosmology, University of Wisconsin-Milwaukee

Se alle

The book truly has the potential to become a pivotal part of scholarship in physics. This lucid and thoughtful approach to taking the reader pedagogically through how Einsteinian relativity works, and how it supersedes the Newtonian construction with respect to explaining the basic principles of physical law, is comprehensive, thorough, innovative, challenging, and in many cases original. Steane's approach fills a gap in what in many university undergraduate courses has become a topic considered rather too briefly and in a rather too stereotyped manner, and which thereby has always denied physics graduates of the deeper insight into how Lorentz invariance is at the root of almost everything.

John Dainton, Sir James Chadwick Professor of Physics, University of Liverpool

Following on from a previous volume on Special Relativity, Andrew Steane's second volume on General Relativity and Cosmology is aimed at advanced undergraduate or graduate students undertaking a physics course, and encourages them to expand their knowledge of Special Relativity. Beginning with a survey of the main ideas, the textbook goes on to give the methodological foundations to enable a working understanding of astronomy and gravitational waves (linearized approximation, differential geometry, covariant differentiation, physics in curved spacetime). It covers the generic properties of horizons and black holes, including Hawking radiation, introduces the key concepts in cosmology and gives a grounding in classical field theory, including spinors and the Dirac equation, and a Lagrangian approach to General Relativity. The textbook is designed for self-study and is aimed throughout at clarity, physical insight, and simplicity, presenting explanations and derivations in full, and providing many explicit examples.
Les mer
Aimed at advanced undergraduate or graduate physics students, the book aims to give a working understanding of astronomy and gravitational waves, as well as introducing the reader to the key concepts in cosmology and classical field theory.
Les mer
1: Preface 2: Terminology and notation 3: The elements of general relativity 4: An introductory example: the uniform static field 5: Life in a rotating world 6: Linearized general relativity 7: Slow stationary sources 8: Gravitational waves 9: Manifolds 10: Vectors on manifolds 11: The affine connection 12: Further useful ideas 13: Tensors 14: Parallel transport and geodesics 15: Physics in curved spacetime 16: Curvature 17: The Einstein field equation 18: Schwarzschild-Droste solution 19: Further spherically symmetric solutions 20: Rotating bodies; the Kerr metric 21: Black holes 22: Black hole thermodynamics 23: Cosmology 24: Cosmological dynamics 25: The growth of structure 26: Observational cosmology 27: The very early universe 28: First steps in classical field theory 29: Lagrangian mechanics for fields 30: Conclusion Free
Les mer
Review from previous edition As Albert Einstein once emphasized, one should make things as simple as possible, but not simpler. Andrew Steane follows the master's recommendation and presents a relatively easy tour through the wonderful worlds of Special and General Relativity. He guides the reader patiently and pedagogically through the fundamental concepts as well as their main applications. This book is of great value for both students and lecturers.
Les mer
Andrew Steane is a Professor of Physics at the University of Oxford. He has conducted experimental and theoretical research into the foundations of physics and has performed pioneering quantum experiments with ultra-cold atomic clouds, as well as establishing the ion trap quantum computing program at Oxford. Professor Steane discovered quantum error correction and the CSS (Calderbank Shor Steane) codes and he is a recipient of the Maxwell Medal and Prize of the Institute of Physics, and the Trotter Prize of Texas A&M University. He regularly lectures on relativity and other areas of physics and has published two undergraduate physics textbooks and two books on science and religion with Oxford University Press.
Les mer
Includes chapters on gravitational waves and black holes Features a large number of processes and results derived in full as well as clear explanations designed to work for self-study Includes plenty of diagrams, exercises, and tutorial inserts to aid comprehension
Les mer

Produktdetaljer

ISBN
9780192893543
Publisert
2021
Utgiver
Vendor
Oxford University Press
Vekt
1072 gr
Høyde
247 mm
Bredde
190 mm
Dybde
24 mm
Aldersnivå
U, 05
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
512

Forfatter
Steane Andrew M.

Biographical note

Andrew Steane is a Professor of Physics at the University of Oxford. He has conducted experimental and theoretical research into the foundations of physics and has performed pioneering quantum experiments with ultra-cold atomic clouds, as well as establishing the ion trap quantum computing program at Oxford. Professor Steane discovered quantum error correction and the CSS (Calderbank Shor Steane) codes and he is a recipient of the Maxwell Medal and Prize of the Institute of Physics, and the Trotter Prize of Texas A&M University. He regularly lectures on relativity and other areas of physics and has published two undergraduate physics textbooks and two books on science and religion with Oxford University Press.

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