Palacký University Olomouc
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for academic year 2024/2025
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Course: Theory of Relativity

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Course title Theory of Relativity
Course code KEF/TR
Organizational form of instruction Lecture + Exercise
Level of course Bachelor
Year of study not specified
Semester Summer
Number of ECTS credits 3
Language of instruction Czech, English
Status of course Compulsory, Compulsory-optional, Optional
Form of instruction Face-to-face
Work placements This is not an internship
Recommended optional programme components None
Course availability The course is available to visiting students
Lecturer(s)
  • Richterek Lukáš, Mgr. Ph.D.
Course content
<ol> <li> Introduction, space and time in non-relativistic physics, ether and basic experiments for its determination, Michelson-Morley experiment, Einstein postulates, Lorentz transformation and its consequences (length contraction, time dilatation, relativity of time and space, transformation of velocity) <li> Minkowski spacetime, event, space-time interval and true time, light cone, world line, causal structure of the spacetime, four-dimensional formalism and four-vectors, tensors in Minkowski spacetime and important operations with them, Minkowski diagram, covariance principle <li> Equations of relativistic dynamics of a particle, four-force and four-momentum, equivalence of mass and energy, basic equations of dynamics of a particle system, collisions and scattering of particles, stability of particles, bonding energy, annihilation of electron-pozitron pair, Compton scattering, tensor of angular momentum <li> Speeds over speed of light and causality principle, paradoxes, appearance of moving objects, speeds under and over speed of light, paradox consequences of speeds over speed of light and tachyons, twin (time) paradox and other paradoxes, paradox of rotating disk and non-Euclidian geometry, relativistic aberration, relativistic Doppler effect, experimental verification of theory of relativity <li> Four-current and four-potential, Lorentz calibration condition, wave equations for field potentials, tensors of electromagnetic field and Maxwell equations, their transformations and field invariants, Lorentz four-force and its density, plane harmonic electromagnetic wave, wave four-vector, tensor of energy and momentum of electromagnetic field, laws of conservation <li> Poincaré groups and their subsets, Lorentz group mad restricted Lorentz group, infinitesimal Lorentz transformation, Lorentz transformation with arbitrary direction of velocity, boost, superposition of Lorentz transformations in perpendicular directions, Thomas precession, variation principles in relativistic mechanics </ol>

Learning activities and teaching methods
Lecture
Learning outcomes
The aim of the course is to show the role of special relativity in the physical picture of the world.
Knowledge Define the main ideas and conceptions of the subject, describe the main approaches of the studied topics, recall the theoretical knowledge for solution of model problems.
Prerequisites
Knowledge at the level of basic undergraduate course of physics
KEF/EMGU
----- or -----
KEF/EMGX

Assessment methods and criteria
Student performance

<ul> <li> 50% class attendance in the exercise classes with at least one active performance of task solving <li> Handing in of all the solved homework tasks <li> Report on a selected topic </ul>
Recommended literature
  • Bajer, J. (2018). Optika 2. Olomouc: Vydavatelství Vladimír Chlup.
  • Bartuška, K. (2010). Fyzika pro gymnázia ? Speciální teorie relativity. Praha: Prometheus.
  • Greiner, W., & Bromley, D. A. (2004). Classical mechanics: point particles and relativity. New York: Springer.
  • Halliday, D., Resnick, R., Walker, J. (2013). Fyzika 2. Brno: VUTIUM.
  • HORSKÝ, J.; NOVOTNÝ, J.; ŠTEFANÍK, M. (2001). Mechanika ve fyzice. Academia, Praha.
  • Kvasnica, J. (1985). Teorie elektromagnetického pole. Academia, Praha.
  • Richterek, L. (2013). Teorie relativity a astronomie. Olomouc: UP.
  • Rindler, W. (2006). Relativity. Special, General, and Cosmological. Oxford University Press.
  • ROSSER, W.G.V. (1991). Introductory Special Relativity.. Taylor & Francis, London-New York-Philadelphia.
  • TILLICH, J. (1984). Klasická mechanika. UP Olomouc.
  • VOTRUBA, V. (1977). Základy speciální teorie relativity. Academia, Praha.


Study plans that include the course
Faculty Study plan (Version) Category of Branch/Specialization Recommended year of study Recommended semester
Faculty: Faculty of Science Study plan (Version): Applied Physics (2019) Category: Physics courses - Recommended year of study:-, Recommended semester: Summer
Faculty: Faculty of Science Study plan (Version): General Physics and Mathematical Physics (2019) Category: Physics courses 3 Recommended year of study:3, Recommended semester: Summer
Faculty: Faculty of Science Study plan (Version): Optics and Optoelectronics (2019) Category: Physics courses 3 Recommended year of study:3, Recommended semester: Summer
Faculty: Faculty of Science Study plan (Version): Physics for Education (2019) Category: Physics courses 3 Recommended year of study:3, Recommended semester: Summer
Faculty: Faculty of Science Study plan (Version): Instrument and Computer Physics (2019) Category: Physics courses - Recommended year of study:-, Recommended semester: Summer
Palacký University Olomouc, date of update: 01.05.2025 23:59. Data created for academic year 2024/2025