Vår 2023

FYS-3030 Fluid dynamics of atmospheres and oceans - 10 stp

The course is administrated by

Institutt for fysikk og teknologi

Type of course

The course is available as a singular course. The course is also available to exchange students and Fulbright-students.

The course will only be taught if there is a sufficient number of students. If you are interested in following the course, please contact the student advisor as soon as possible

Course overlap

FYS-8030 Fluid dynamics of Atmospheres and Oceans 8 stp

Course contents

The course gives the basic theory for the large-scale dynamics of atmospheres and oceans and provides the foundation for more specialized studies of atmosphere and ocean dynamics. The course includes the fundamental equations for atmosphere and ocean fluid dynamics, the effects of rotation and stratification, the beta-plan approximation, the Boussinesq and anelastic equations, scaling relevant for the Earth atmosphere and ocean circulations, the Rossby number, static instability and gravity waves, the Ekman layer, the shallow-water approximation and its wave solutions, available potential energy, vorticity, potential vorticity, the circulation theorems, Rossby waves and barotropic and baroclinic instability.

Application deadline

Applicants from countries within EU/EEA: June 1st for the autumn semester and December 1st for the spring semester.

Exchange students and Fulbright students: 1 October for the spring semester and 15 April for the autumn semester.

Admission requirements

Admission requirements are a Bachelors degree in physics or similar education, including specialization in physics worth the equivalent of not less than 80 ECTS credits. Local admission, application code 9371 - singular courses at Master's level.

Objective of the course

Knowledge - The student can

identify the basic equations relevant for the circulation in the atmosphere and ocean
describe the concept and the characteristics of constant density, barotropic and baroclinic fluids
explain the implication on a fluid by rotation, and describe the concept of an f-plane and beta-plane
explain the advantages and limitations of the Boussinesq and anelastic approximations, and describe the reasons for, and implications of the density variations in the Earth's atmosphere and ocean
describe the concept of thermal-wind balance
explain the role of static stability and instability and its implications for gravity and acoustic waves
describe the advantages and the limitations of the shallow-water approximation
identify wave solution to the shallow-water equations such as Kelvin and Poincaré waves
explain the Kelvin theorem and the concept of vorticity and potential vorticity
describe the quasi-geostrophic approximation and identify its Rossby wave solution
explain barotropic and baroclinic instability

Skills - The student can

solve basic problems within atmosphere and ocean fluid dynamics
apply appropriate scaling of equations associated with atmosphere and ocean fluid dynamical problems

General competence - The student can

incorporate current knowledge and new scientific information into critical thinking
communicate theories, problem descriptions and solutions

Language of instruction

The language of instruction is English and all of the syllabus material is in English. Examination questions will be given in English, but may be answered either in English or a Scandinavian language.

Teaching methods

Lectures: 40 hours Exercises: 20 hours