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Outline of the Lectures Lecture 1: The Einstein Equivalence Principle Lecture 2: Post-Newtonian Limit of GR Lecture 3: The Parametrized Post-Newtonian.

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Presentation on theme: "Outline of the Lectures Lecture 1: The Einstein Equivalence Principle Lecture 2: Post-Newtonian Limit of GR Lecture 3: The Parametrized Post-Newtonian."— Presentation transcript:

1 Outline of the Lectures Lecture 1: The Einstein Equivalence Principle Lecture 2: Post-Newtonian Limit of GR Lecture 3: The Parametrized Post-Newtonian Framework Lecture 4: Tests of the PPN Parameters

2 Outline of the Lectures Lecture 1: The Einstein Equivalence Principle Lecture 2: Post-Newtonian Limit of GR Lecture 3: The Parametrized Post-Newtonian Framework  Parametrizing the PN metric  Conservation laws  Equations of motion - photons  Equations of motion - massive bodies  Equations of motion - gyroscopes  Locally measured gravitation constant G  The Strong Equivalence Principle Lecture 4: Tests of the PPN Parameters

3 The PN metric in GR

4 Effect of a PN gauge change

5 Parametrizing the post-Newtonian metric

6 Effect of a Boost

7 The parametrized post-Newtonian (PPN) framework

8 Parameter What it measures, relative to general relativity Value in GR Value in scalar tensor theory Value in semi- conservative theories  How much space curvature produced by unit mass? 1(1+  )/(2+  )   How “nonlinear’’ is gravity? 11 +    Preferred-location effects? 00   Preferred-frame effects? 00   00   000  Is momentum conserved? 000  000  000  000 PPN Parameters and their Significance

9 PPN n-body equation of motion

10 Newtonian” part of the n-body acceleration

11 PPN n-body equation of motion

12 The problem of motion  Geodesic motion  1916 - Droste, De Sitter - n-body equations of motion  1918 - Lense & Thirring - motion in field of spinning body  1937 - Levi-Civita - center-of-mass acceleration  1938 - Eddington & Clark - no acceleration  1937 - EIH paper & Robertson application  1960s - Fock & Chandrasekhar - PN approximation  1967 - the Nordtvedt effect& the PPN framework  1974 - numerical relativity - BH head-on collision  1974 - discovery of PSR 1913+16

13 The Strong Equivalence Principle (SEP)  All bodies fall with the same acceleration Weak Equivalence Principle (WEP)  In a local freely falling frame, all physics is independent of frame’s velocity Local Lorentz Invariance (LLI)  In a local freely falling frame, all physics is independent of frame’s location Local Position Invariance (LPI)

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