Klassieke Mechanica a, Introductie Moderne Natuurkunde, Elektrische en Magnetische Velden, Analyse 2 (na)
The description of the laws of classical mechanics of Newton are given a more general and more fundamental form in the Lagrange and Hamilton formalisms. This description makes the theory more elegant and more broadly useful. In this form the theory prepares the scene for the treatment of Quantum mechanics.
Subjects to be discussed are: Generalized coordinates; phase space; constraints; Lagrangian and Lagrange’s equations; conservation laws; Hamiltonian and Hamilton’s equations;
Hamilton’s principle (principle of least action).
The power of the formalism is illustrated by a second main topic: the analysis of systems of coupled harmonic oscillators. This is a subject of great importance, and examples of problems range from physics, to chemistry, engineering, etc.
After completing this course the student is capable of solving problems using the Lagrange and Hamilton formalisms for conservative systems, and problems involving systems of coupled harmonic oscillators.
Mode of instruction
Lectures and Exercise Classes
Written exam with open questions. The exam can be retaken.
Blackboard is used as the central information source in CMb.
It offers, a.o., an overview of the course material, all powerpoint slides of the lectures, assignments, and examples of exams of previous years.
To have access to Blackboard you need a ULCN-account.Blackboard UL
Analytical Mechanics, G.R. Fowles and G.L. Cassiday, 7th edition (Thomson Learning, inc., 2004), ISBN 9780534408138.
In addition lecture notes will be distributed.
Contact details of the lecturer: Prof.dr. Jan van Ruitenbeek