General Relativity & Cosmology
This course will enable the students to -
- Provide a detailed knowledge of the general relativity and its applications in Cosmology.
- Solve the problems and help in research in these broad areas.
Course Outcomes (COs):
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Course |
Learning outcomes (at course level) |
Learning and teaching strategies |
Assessment Strategies |
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Course Code |
Course Title |
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MAT 425A |
General Relativity & Cosmology (Theory)
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The students will be able to –
CO188: Formulate Einstein field equation for matter and empty space. CO189: Understand the concept of clock paradox in general relativity. CO190: Derive the differential equation for planetary orbit, analogues of kepler's law. CO191: Derive Schwarzschild interior, exterior metric and their isitropic forms. CO192: Calculate the Trace of Einstein tensor, Energy-momentum tensor and its expression for perfect fluid. CO193: Apply the concepts of Einstein tensor, Energy-momentum tensor and its expression for perfect fluid.
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Approach in teaching: Interactive Lectures, Discussion, Power Point Presentations, Informative videos Learning activities for the students: Self learning assignments, Effective questions, presentations, Field trips |
Quiz, Poster Presentations, Power Point Presentations, Individual and group projects, Open Book Test, Semester End Examination |
Mach’s principle, Newtonian approximation of equation of motion, Einstein’s field equation for matter and empty space, Reduction of Einstein’s field equation to Poisson’s equation.
Removal of clock paradox in General Relativity, Schwarzschild exterior metric and its isotropic form, Singularity and singularities in Schwarzschild exterior metric, Derivation of the formula GM=m c^2, Mass of sun in gravitational unit.
Relativistic differential equation for the orbit of the planet, three crucial tests in general relativity and their detailed descriptions, Analogues of Kepler’s laws in general relativity.
Cosmology - Einstein’s field equation with cosmological term, Static cosmological models (Einstein & de-Sitter models) with physical and geometrical properties, Non-static form of de-Sitter line-element and red shift in this metric, Einstein space, Hubble’s law, Weyl’s postulate.
- Jayant V. Narlikar, Introduction to Cosmology, CambridgeUniversity Press, 2002.
- Bernard F. Schutz, A First Course in General Relativity, CambridgeUniversity Press, 2010.
- Sushil Kumar Srivastava, General Relativity and Cosmology, Prentice hall India, 2008.
- Raj Bali, General Relativity, JPH, 2005.
- David Agmon, Paul Gluck, Classical and Relativistic Mechanics,2009.
- Jayant V. Narlikar, AnIntroduction to Relativity, CambridgeUniversity Press, 2010.
- Robert J. A. Lambourne, Relativity, Gravitation, and Cosmology, Cambridge University Press, 2010.
- R.C. Tolman, Relativity, Thermodynamics and Cosmology, Dover Publications Inc, 1988.
- J.L. Synge, Relativity the General Theory, North Holland Publishing Company, Amsterdam, 1971.
- A.S. Eddention, The Mathematical Theory of Relativity, Cambridge University Press, 2010.
- S. Aranoff, Equilibrium in Special Relativity: The Special Theory, North Holland Pub. Amsterdam, 1965.
