10: General Relativity

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Kim Coble, Kevin McLin, & Lynn Cominsky
San Francisco State University, Chico State University, & Sonoma State University

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Chapter 10 presents Einstein’s General Theory of Relativity, in which the force of gravity is a natural consequence of curved spacetime due to the presence of mass and energy. You will investigate properties of curved spacetime including time dilation, gravitational redshifts, and gravitational lensing. You will also build a mathematical construct for describing curvature and apply it to two- and three-dimensional models.

10.0: General Relativity Introduction
10.1: Einstein’s Equivalence Principle
10.2: Gravity and Curvature
10.3: What is Curvature?
10.4: Tests of General Relativity
10.5: The Source of Gravity
You will understand that the curvature of spacetime is related to the mass-energy distribution.
10.6: Wrapping It Up 10 - Curved Spacetime Around Astronomical Objects
10.7: Mission Report 10- Curved Spacetime Around Astronomical Objects
10.8: Formulae, Constants, and Conversion Factors for Chapter 10

Thumbnail: Artist concept of Gravity Probe B orbiting the Earth to measure space-time, a four-dimensional description of the universe including height, width, length, and time. (Public Domain; NASA).

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