Mechanics 2 and Thermodynamics
Undergraduate course
- ECTS credits
- 10
- Teaching semesters
- Autumn
- Course code
- PHYS113
- Number of semesters
- 1
- Teaching language
- Norwegian
- Resources
- Schedule
Course description
Objectives and Content
Objectives:
To provide a broad knowledge of classical mechanics, gravitation and basic thermodynamics
Content:
The course deals with classical mechanics and basic thermodynamics: oscillations, mechanical waves, gravitation, basic celestial mechanics, Lagrange-Hamilton formalism, thermodynamic processes and variables, the laws of thermodynamics, and heat transfer mechanisms. The course forms the basis for continued studies in e.g. physics, geophysics, and industrial processes.
Learning Outcomes
On completion of the course the student should have the following learning outcomes defined in terms of knowledge, skills and general competence:
Knowledge
The student has gained knowledge about
- harmonic motion, elasticity, waves, sound and interference
- gravitation and basic celestial dynamics
- Lagrange-Hamilton formulation of mechanics
- Temperature and heat, states of matter and phase transitions, equations of state and state variables, work, internal energy and entropy, the laws of thermodynamics
Skills
The student can solve problems using
- ideal springs, simple harmonic motion, sound speed in gases/fluids/solids, the Doppler effect, interference and standing waves
- Kepler´s law and energy and angular momentum conservation principles applied to gravitation
- the Lagrange-Hamilton formalism applied to few body mechanical systems
- thermal expansion, heat conduction, the ideal gas law, kinetic gas theory, the laws of thermodynamics and Carnot's principle
General competence
The student has gained
- increased ability for reflection and insight in how physics connects cause and effect for simple processes in nature
- increased understanding on how basic concepts and methods are the foundations of more advanced fields
- increased capability to recognize the basic concepts of physics at play in everyday life phenomena
- training in analysing complex problems by decomposing them into simpler tasks