Course

Analytical Mechanics and Field Theory (FYS500)

The course gives an introduction to classical mechanics and field theory, Lagrange and Hamilton formalism.


Dette er emnebeskrivelsen for studieåret 2022-2023. Merk at det kan komme endringer.

See course description and exam/assesment information for this semester (2024-2025)

Semesters

Fakta

Emnekode

FYS500

Vekting (stp)

10

Semester undervisningsstart

Autumn

Undervisningsspråk

English

Antall semestre

1

Vurderingssemester

Autumn

Timeplan

Vis timeplan

Litteratur

Pensumlisten finner du i Leganto

Content

Introduction to variational calculus and the Lagrange multiplier method. Hamilton’s variational principle and the Lagrange formulation of mechanics. Symmetries and conservation laws. Applications, including motion in central fields, dynamics of rigid bodies, oscillations, and the Lagrangian formulation of special relativity. Hamilton’s formulation of mechanics.

Continuous systems and fields, the Lagrange and Hamilton formulations of mechanics of continuous systems. Conservation laws for fields, the energy-momentum tensor. Overview of important classical field theories, Maxwell’s electrodynamics as a relativistic field theory.

Learning outcome

After completing the course, the student should:

K1: Have knowledge of the Lagrangian and Hamiltonian formulations of classical mechanics, and core applications of these formalisms.

K2: Have knowledge of relativistic mechanics and its range of validity. 

K3: Have knowledge of classical field theory, including specific field theories that occur in our description of Nature.

F1: Be able to apply the Lagrangian and Hamiltonian formalism to moderately advanced mechanical systems, derive the equations of motion and solve them. 

F2: Be able to analyse and solve classical mechanics problems involving rotating rigid bodies.

F3: Be able to analyse select central applications in detail using the Lagrangian formalism.

G1: Have an understanding of how the topics of the course (Lagrangian, Hamiltonian, relativistic, field theory mechanics) fit into and connect different areas of physics, including Newtonian mechanics, electromagnetism, quantum mechanics and field theory applications.

Forkunnskapskrav

Ingen

Anbefalte forkunnskaper

Mechanics (FYS100), Electromagnetism and Special Relativity (FYS300), Mathematical Methods 1 (MAT100)

Exam

Form of assessment Weight Duration Marks Aid Exam system Withdrawal deadline Exam date
Written exam 1/1 4 Hours Letter grades Compilation of mathematical formulae (Rottmann), Specified printed and hand-written means are allowed


Fagperson(er)

Head of Department:

Bjørn Henrik Auestad

Course coordinator:

Tomas Brauner

Method of work

6 hours of lectures and exercises per week.

Åpent for

Admission to Single Courses at the Faculty of Science and Technology
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Emneevaluering

Use evaluation forms and/or conversation for students' evaluation of the course and teaching, according to current guidelines

Litteratur

Book Classical mechanics Goldstein, Herbert, Safko, John L.; Poole, Charles P., San Francisco, Addison-Wesley, XVIII, 638 s., c2002, isbn:0201657023; 0321188977, Book Intermediate Dynamics Hamill Patrick, United Kingdom :, Cambridge University Press, 616, 2022; ©, isbn:9781009098472, https://doi.org/10.1017/9781009089494View online Book Classical mechanics Taylor, John R., Sausalito, Calif., University Science Books, XIV, 786 s., cop. 2005, isbn:189138922X; 9781891389221,

Kontakt

Head of Department:

Bjørn Henrik Auestad

Course coordinator:

Tomas Brauner

Tilbys av

Faculty of Science and Technology

Department of Mathematics and Physics

The course description is retrieved from FS (Felles studentsystem). Version 1