This course covers the basic physical concepts and mathematical equations used to describe environmental fluid systems on the rotating Earth. Fundamental concepts (e.g. vorticity dynamics and waves) are formally introduced, applied quantitatively and illustrated using examples. Exercises help to deepen knowledge of the material.
Learning objective
Students are able - to name the basics, concepts and methods of environmental fluid dynamics. - to understand and discuss the components of the basic physical equations - to mathematically solve basic equations for simple problems of environmental fluid dynamics. The competencies of process understanding and system understanding are taught, applied and examined.
Content
Basic physial terminology and mathematical laws: Continuum hypothesis, forces, constitutive laws, state equations and basic principles of thermodynamics, kinematics, laws of mass and momentum on rotating earth. Concepts and illustrative flow sytems: vorticity dynamics, boundary layers, instability, turbulence - with respect to environmental fluid systems. Scale analysis: dimensionles variables and dynamical similarity, simplification of the fluid system, e.g. shallow water assumption, geostrophic flow. Waves in environmental fluid systems.
Lecture notes
In english language
Literature
Will be presnted in class. See also: web-site.
Competencies
Subject-specific Competencies
Concepts and Theories
assessed
Method-specific Competencies
Analytical Competencies
assessed
Problem-solving
assessed
Personal Competencies
Creative Thinking
assessed
Critical Thinking
assessed
Performance assessment
Performance assessment information (valid until the course unit is held again)