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This is the study programme for 2019/2020. It is subject to change.


The course gives an introduction to the General Theory of Relativity and its cosmological consequences.

Learning outcome

The students shall master the physical principles and the mathematical formalism of the General Theory of Relativity, and know its most important physical consequences. They shall have knowledge of basic cosmological consequences and central cosmological models. They shall be able to comprehend the scientific literature of the field and use the theory to independently analyze simple cosmological problems.

Contents

The equivalence principle, metric, space time curvature, tensor analysis, Einsteins field equations, the Schwarzschild solution, tests of general relativity, relativistic stars, gravitational collapse, black holes, gravitational waves, homogenous and isotropic universe models, the early universe.

Required prerequisite knowledge

None.

Recommended previous knowledge

FYS110 Astronomy, FYS300 Electromagnetism and Special Relativity, FYS500 Classical Mechanics, MAT500 Mathematical Modelling

Exam

Weight Duration Marks Aid
Oral exam1/11 hourA - FNone permitted

Course teacher(s)

Course coordinator
Germano Nardini
Head of Department
Bjørn Henrik Auestad

Method of work

6 hours lectures and problem solving per week.

Open to

Master studies at the Faculty of Science and Technology

Course assessment

Use evaluation forms and/or conversation for students' evaluation of the course and teaching, according to current guidelines

Literature

"Einsteins General Theory of Reativity", Øyvind Grøn, Sigbjørn Hervik. Springer.


This is the study programme for 2019/2020. It is subject to change.

Sist oppdatert: 24.08.2019