NFYA04022U General Relativity and Cosmology
MSc Programme in Physics
MSc Programme in Physics with minor subject
The purpose of this course is that the student obtains a basic
understanding of general relativity and its applications.
The first part of the course gives an introduction to Einstein's theory of general relativity. The second part of the course gives an introduction to its applications to planetary motion, bending of light, black holes, gravitational waves and cosmology.
- When the course is finished it is expected that the student is able to explain Einsteins equivalence principle, explain how this leads to introducing a general metric for space-time, and describe the physical and mathematical meaning of geodesic motion.
- The student should be able to apply the principle of general covariance along with the mathematical tools of tensors and covariant derivatives to formulate laws of nature.
- The student should understand the notion of curvature of space-time and explain how this can be used to arrive at the Einstein equations.
- The student should be able to derive the Schwarzschild geometry around a static and spherically symmetric distribution of matter, describe the geodesics in this geometry and apply this to planetary orbits in the solar system and the bending of light around massive objects.
- The student should be able to show how the Schwarzschild solution gives rise to the notion of black holes.
- The student should be able to interpret the Kerr metric as a rotating black hole.
- The student should be able to explain what a gravitational wave is and how it affects the relative motion of test particles.
- Finally, the student should be able to explain the basic ingredients of cosmology as derived in the framework of general relativity, including the evolution of the scale factor of the universe given different energy momentum components.
The course introduces the student to the concept of gravity as a property of the geometry of spacetime itself, leading to Einstein's theory of general relativity. This includes Einsteins equivalence principle, the concept of general covariance, geodesic motion and the Einstein equations. As applications we will discuss the Schwarzschild solution and its geodesics, black holes, gravitational waves and cosmology.
This course makes use of previously obtained knowledge in Newtonian mechanics, special relativity and vector calculus as well other related fields such as astrophysics and particle physics. After the course, the student should have a better picture of how general relativity fits into the latter subjects. Furthermore, the course is a good preparation for other more advanced courses in for example cosmology, high-energy physics and string theory.
See Absalon for final course material. The following is an example of expected course litterature.
Lecture notes by Troels Harmark
Academic qualifications equivalent to a BSc degree is recommended.
- Practical exercises
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- 7,5 ECTS
- Type of assessment
- Oral examination, 25 min
- Type of assessment details
- No preparation time.
- Exam registration requirements
It is mandatory to take all the given 3 quizzes during the course. It is not required to pass the quizzes and the quizzes are not part of the exam evaluation.
- Only certain aids allowed
One "A4" piece of paper with the students notes.
- Marking scale
- 7-point grading scale
- Censorship form
- No external censorship
More internal examiners
Same as regular exam. Students who have not taken the quizzes during the course, should do so in Absalon at least 3 weeks before the re-exam. If you do not have access to the latest Absalon room, please contact the course responsible.
Criteria for exam assesment
see learning outcome
- Course code
- 7,5 ECTS
- Full Degree Master
- 1 block
- Block 2
- Course capacity
- No restriction
The number of seats may be reduced in the late registration period
- Study Board of Physics, Chemistry and Nanoscience
- The Niels Bohr Institute
- Faculty of Science
- Troels Harmark (7-6d6677726677704573676e33707a336970)