Difference between revisions of "MAT4143"
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* Needham, T. (1997). Visual Complex Analysis. United Kingdom: Clarendon Press. | * Needham, T. (1997). Visual Complex Analysis. United Kingdom: Clarendon Press. | ||
* Grimshaw, R. (1993). Nonlinear Ordinary Differential Equations (1st ed.). Routledge. | * Grimshaw, R. (1993). Nonlinear Ordinary Differential Equations (1st ed.). Routledge. | ||
− | * R. Courant and D. Hilbert, Methods of Mathematical Physics. Vol. II: Partial | + | * R. Courant and D. Hilbert, Methods of Mathematical Physics. Vol. II: Partial Differential Equations, Wiley Classics Library, John Wiley & Sons Inc., New York, 1989. |
− | * Bender, C. and Orszag, S. Advanced Mathematical Methods for Scientists and | + | * Bender, C. and Orszag, S. Advanced Mathematical Methods for Scientists and Engineers. Mc-Graw Hill. |
* Kreyszig, E. (1989). Introductory Functional Analysis with Applications. Wiley. | * Kreyszig, E. (1989). Introductory Functional Analysis with Applications. Wiley. | ||
− | * Methods of Applied Mathematics. Todd Arbogast and Jerry L. Bona. Department of | + | * Methods of Applied Mathematics. Todd Arbogast and Jerry L. Bona. Department of Mathematics, and Institute for Computational Engineering and Sciences, University of Texas at Austin, 2008. |
− | Mathematics, and Institute for Computational Engineering and Sciences, University of | + | * P. J. Olver , Applications of Lie Groups to Differential Equations, Second Edition, Graduate Texts in Mathematics, vol. 107, Springer-Verlag, New York, 1993. |
− | Texas at Austin, 2008. | ||
− | * P. J. Olver , Applications of Lie Groups to Differential Equations, Second Edition, | ||
− | Graduate Texts in Mathematics, vol. 107, Springer-Verlag, New York, 1993. | ||
* Rutherford Aris, Vectors, Tensors and the Basic Equations of Fluid Mechanics. Dover | * Rutherford Aris, Vectors, Tensors and the Basic Equations of Fluid Mechanics. Dover | ||
Publications | Publications |
Revision as of 08:00, 24 March 2023
Course description
Mathematical Physics tentative topics list. This course is aimed at physics majors who wish to deepen their understanding or mathematical methods used in physics. This course is also suitable for Mathematics majors, who can deepen their understanding of applications and proofs of major theorems in Functional Analysis.
Textbooks:
- Needham, T. (1997). Visual Complex Analysis. United Kingdom: Clarendon Press.
- Grimshaw, R. (1993). Nonlinear Ordinary Differential Equations (1st ed.). Routledge.
- R. Courant and D. Hilbert, Methods of Mathematical Physics. Vol. II: Partial Differential Equations, Wiley Classics Library, John Wiley & Sons Inc., New York, 1989.
- Bender, C. and Orszag, S. Advanced Mathematical Methods for Scientists and Engineers. Mc-Graw Hill.
- Kreyszig, E. (1989). Introductory Functional Analysis with Applications. Wiley.
- Methods of Applied Mathematics. Todd Arbogast and Jerry L. Bona. Department of Mathematics, and Institute for Computational Engineering and Sciences, University of Texas at Austin, 2008.
- P. J. Olver , Applications of Lie Groups to Differential Equations, Second Edition, Graduate Texts in Mathematics, vol. 107, Springer-Verlag, New York, 1993.
- Rutherford Aris, Vectors, Tensors and the Basic Equations of Fluid Mechanics. Dover
Publications
Topics List
Date | Sections | Topics | Prerequisite Skills | Student Learning Outcomes |
---|---|---|---|---|
Week 1 |
|
Complex Analysis Part I |
| |
Week 2 |
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Complex Analysis Part II |
| |
Week 3 |
|
Complex Analysis Part III |
| |
Week 4 |
|
Tensor Calculus Basics I |
| |
Week 5 |
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Tensor Caluclus Basics II |
| |
Week 6 |
|
Applied Functional Analysis Part I |
| |
Week 7 |
|
Applied Functional Analysis Part II |
| |
Week 8 |
|
Applied Functional Analysis Part III |
| |
Week 9 |
|
Overview about ordinary differential equations I |
| |
Week 10 |
Overview about ordinary differential equations II |
| ||
Week 11 |
|
PDE's of Mathematical Physics |
| |
Week 12 |
Introduction to Lie Groups and Symmetries I |
|
| |
Week 13 |
|
Introduction to Lie Groups and Symmetries II |
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Week 14 |
|
KdV equation, completely integrable systems |
|
|