Gravitation

E518529

Gravitation is a comprehensive and influential 1973 textbook by Charles Misner, Kip Thorne, and John Wheeler that presents an in-depth treatment of general relativity and gravitational physics.

All labels observed (1)

Label Occurrences
Gravitation canonical 6

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Statements (48)

Predicate Object
instanceOf non‑fiction book
physics textbook
scientific monograph
author Charles W. Misner NERFINISHED
John Archibald Wheeler NERFINISHED
Kip S. Thorne NERFINISHED
countryOfOrigin United States of America
surface form: United States
field general relativity NERFINISHED
gravitational physics
theoretical physics
hasPart historical notes
mathematical appendices
problems and exercises
influenced generations of relativists
language English
mediaType print
notableFor comprehensive treatment of general relativity
detailed problem sets
extensive geometric approach to gravity
influential role in gravitational physics education
publicationYear 1973
publisher W. H. Freeman and Company NERFINISHED
subject ADM formalism NERFINISHED
Einstein field equations NERFINISHED
Einstein’s theory of general relativity
Lorentzian manifolds
Riemannian geometry NERFINISHED
black holes
canonical gravity
causal structure
cosmology
curved spacetime
differential geometry
equivalence principle
experimental tests of general relativity
geodesics
global structure of spacetime
gravitational collapse
gravitational waves
relativistic stars
singularity theorems
special relativity
tensor calculus
targetAudience advanced undergraduates
graduate students
researchers in gravitational physics
timePeriodCovered 20th‑century developments in gravitation theory
title Gravitation NERFINISHED

How these facts were elicited

Referenced by (6)

Full triples — surface form annotated when it differs from this entity's canonical label.

Charles Misner coAuthorOf Gravitation
Charles Misner authorOf Gravitation
Charles Misner notableWork Gravitation
textbook "A First Course in General Relativity" relatedWork Gravitation
subject surface form: A First Course in General Relativity
Kip notableWork Gravitation
subject surface form: Kip Thorne