Course: Modern physics II

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Course title Modern physics II
Course code KFY/MOF2
Organizational form of instruction Lecture + Lesson
Level of course Master
Year of study 3
Semester Winter
Number of ECTS credits 5
Language of instruction Czech
Status of course Compulsory-optional
Form of instruction unspecified
Work placements unspecified
Recommended optional programme components None
Lecturer(s)
  • Blažek Josef, doc. RNDr. CSc.
Course content
1) Noninertital reference frames Inertial forces and Coriolis´s force 2) Rigid bodies mechanics Rotation along the fixed axis and along the fixed point, moment of inertia and tenzor of inertia 3) Lagrange´s equations I Different types of bindings, Lagrange´s equations of the first type 4) Lagrange´s equations II Generalized coordinates. Lagrange´s equations of the second type 5) Hamilton´s canonical equations Hamilton´s equations 6) Electrostatics Coulomb´s law, Gauss formula of electrostatics, electrostatic potential 7) Electrostatics II Electrostatic field of charged conductors, electrostatic field in dielectricum 8) Magnetic field of stationary equation I Continuence equation, Biot-Sarvart law, complete systém of equations of magnetic field 9) Magnetic field of stationary current II Filed in matter environment 10) Maxwell equations I Farraday´s law of electromagnetic induction, Maxwell´s equations 11) Maxwell´s equations II Wave function of the electromagnetic wave 12) Thermodynamic potentials Thermodynamic potentials, Maxwell´s formulas 13) Thermodynamic systems Complete description of the system, examples of thermodynamic systems 14) Conditions of thermodynamic equilibrium Conditions of thermodynamic equilibrium, phases of matter

Learning activities and teaching methods
Monologic (reading, lecture, briefing)
Learning outcomes
Chosen aspects of theory of electromagnetic field and thermodynamics. Explanation of particular mathematical methods (vector analysis, differencials).
Understanding basic principles and theories of mechanics, theory of field and theory mof thermodynamics.
Prerequisites
Physics I-IV, math. analysis

Assessment methods and criteria
Oral examination

An active knowledge of the subject matter as presented by the teaching plan of the course.
Recommended literature
  • Blažek J.:. Úvod do termodynamiky a statistické fyziky. Skripta PF JU, České Budějovice, 1993.
  • Brdička M., Hladík A.:. Teoretická mechanika. Academia, Praha 1987.
  • Čičmanec P.:. Elektrina a magnetizmus. Bratislava 1980.
  • Kvasnica J. a kol.:. Mechanika. Academia, Praha 2004.
  • Kvasnica J.:. Teorie elektromagnetického pole. Academia, Praha 1986.
  • Sedlák B., Štoll J.:. Elektřina a magnetizmus. Academia, Praha 2002.
  • Svoboda E., Bakule R.:. Molekulová fyzika. Praha 1992.


Study plans that include the course
Faculty Study plan (Version) Category of Branch/Specialization Recommended year of study Recommended semester
Faculty: Faculty of Education Study plan (Version): Teacher training in physics (2) Category: Pedagogy, teacher training and social care 2 Recommended year of study:2, Recommended semester: Winter
Faculty: Faculty of Education Study plan (Version): Teacher training in physics and information technology (1) Category: Pedagogy, teacher training and social care 3 Recommended year of study:3, Recommended semester: Winter
Faculty: Faculty of Education Study plan (Version): Teacher training in physics (2) Category: Pedagogy, teacher training and social care 2 Recommended year of study:2, Recommended semester: Winter