This course includes an on campus activity/ies. Check timetable for details. Contact course convener if you are unable to travel to Canberra.
With the spectacular first direct detection of gravitational waves in 2015, General Relativity theory is now arguably the most successful theory of modern physics. This course provides an introduction to the concepts and tools of GR and to its applications in cosmology, gravitational wave theory and gravitational wave detection.
The full geometric structure underpinning the theory will be developed, leading to the Einstein Field equation and an in-depth study of the Schwarzschild black hole. We will study the application of GR theory to cosmology as well as its prediction of the existence of gravitational waves and the principles of how these waves can be detected on Earth.
This course is co-taught with undergraduate students but assessed separately.
Learning Outcomes
Upon successful completion, students will have the knowledge and skills to:
- Demonstrate understanding of the mathematics underpinning manifolds, tensors, metrics, geodesics and the Riemann tensor;
- Prove fundamental properties of, and relationships between, those mathematical elements;
- Derive geodesics from a given metric, and derive metrics from the Einstein field equation for simple forms of the stress-energy tensor;
- Discuss the fundamental properties of gravitational waves;
- Evaluate methods to detect gravitational waves on Earth;
- Develop critical thinking and problem-solving abilities with application to a diverse range of problems in general relativity and gravitational physics;
- Demonstrate high level oral and written communication skills.
Indicative Assessment
- Assignments (40) [LO 1,2,3,4,5]
- Final written exam (35) [LO 1,2,3,4,5]
- Research topic oral presentation (25) [LO 1,2,3,4,5,6,7]
In response to COVID-19: Please note that Semester 2 Class Summary information (available under the classes tab) is as up to date as possible. Changes to Class Summaries not captured by this publication will be available to enrolled students via Wattle.
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Workload
Three one hour lectures per week plus a weekly drop-in session
Inherent Requirements
To be determined
Requisite and Incompatibility
Prescribed Texts
TBC
Preliminary Reading
"A First Course in General Relativity" by B. Schutz (2nd ed., 2009)
Assumed Knowledge
Familiarity with multi-dimensional calculus is assumed.
Fees
Tuition fees are for the academic year indicated at the top of the page.
If you are a domestic graduate coursework or international student you will be required to pay tuition fees. Tuition fees are indexed annually. Further information for domestic and international students about tuition and other fees can be found at Fees.
- Student Contribution Band:
- 2
- Unit value:
- 6 units
If you are an undergraduate student and have been offered a Commonwealth supported place, your fees are set by the Australian Government for each course. At ANU 1 EFTSL is 48 units (normally 8 x 6-unit courses). You can find your student contribution amount for each course at Fees. Where there is a unit range displayed for this course, not all unit options below may be available.
| Units | EFTSL |
|---|---|
| 6.00 | 0.12500 |
Course fees
- Domestic fee paying students
| Year | Fee |
|---|---|
| 2020 | $4050 |
- International fee paying students
| Year | Fee |
|---|---|
| 2020 | $5760 |
Offerings, Dates and Class Summary Links
ANU utilises MyTimetable to enable students to view the timetable for their enrolled courses, browse, then self-allocate to small teaching activities / tutorials so they can better plan their time. Find out more on the Timetable webpage.
Class summaries, if available, can be accessed by clicking on the View link for the relevant class number.
Second Semester
| Class number | Class start date | Last day to enrol | Census date | Class end date | Mode Of Delivery | Class Summary |
|---|---|---|---|---|---|---|
| 9228 | 27 Jul 2020 | 03 Aug 2020 | 31 Aug 2020 | 30 Oct 2020 | In Person | N/A |
