Tevian Dray

Differential Forms and the Geometry of General Relativity

Name: Differential Forms and the Geometry of General Relativity
Brand: Taylor & Francis Inc
SKU: 9781466510005
Price: 117.99 EUR
Availability: InStock

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A01=Tevian Dray

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Angular Momentum

Author_Tevian Dray

automatic-update

basics of general relativity

Bianchi Identity

Category1=Non-Fiction

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COP=United States

Cosmological Constant

curvature in general relativity

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differential forms and orthonormal bases

Displacement Vector

Du Dv

Dx Dy

Einstein Summation Convention

Einstein Tensor

Einstein’s equation and cosmological models

Energy Density

Energy Momentum Tensor

eq_isMigrated=2

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eq_science

Geodesic Deviation

Geodesic Equation

geometric idea in general relativity

geometry of black holes

geometry of general relativity

Hodge Dual

Killing Vectors

Language_English

Levi Civita Connection

Line Element

mathematics of differential forms

Minkowski Space

Null Geodesics

Orthonormal Basis

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Price_€100 and above

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R2 Dφ2

R2 Sin2

Schwarzschild Geometry

softlaunch

Timelike Geodesics

Wedge Product

Product details

ISBN 9781466510005
Weight: 770g
Dimensions: 152 x 229mm
Publication Date: 20 Oct 2014
Publisher: Taylor & Francis Inc
Publication City/Country: US
Product Form: Hardback
Language: English

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Differential Forms and the Geometry of General Relativity provides readers with a coherent path to understanding relativity. Requiring little more than calculus and some linear algebra, it helps readers learn just enough differential geometry to grasp the basics of general relativity.

The book contains two intertwined but distinct halves. Designed for advanced undergraduate or beginning graduate students in mathematics or physics, most of the text requires little more than familiarity with calculus and linear algebra. The first half presents an introduction to general relativity that describes some of the surprising implications of relativity without introducing more formalism than necessary. This nonstandard approach uses differential forms rather than tensor calculus and minimizes the use of "index gymnastics" as much as possible.

The second half of the book takes a more detailed look at the mathematics of differential forms. It covers the theory behind the mathematics used in the first half by emphasizing a conceptual understanding instead of formal proofs. The book provides a language to describe curvature, the key geometric idea in general relativity.