IGF



Atmosphere and ocean dynamics

Academic year: 2021/2022
Semester: winter

LECTURE DESCRIPTION

1. Fluids: air, water. Constitutive equations. Structure of the atmosphere and the ocean. Similarities and differences.
2. Equations of motion in rotating coordinate frame (momentum, mass conservation, energy).
3. Atmosphere as a thin layer of fluid on a rotating sphere. Hydrostatic approximation. Potential temperature, potential density.
4. Multiscale atmospheric and oceanic flows. Filtration of equations. Geostrophic approximation.
5. Prognostic equations. Natural coordinates. Balanced flows in the atmosphere and in the ocean.
6. Shallow water equations. Incopmpressibility: Boussinesq and anelastic approximations.
7. Importance of the atmospheric boundary layer. Oceanic surface layer. Ekman layer in the atmosphere and in the ocean. Ocean -atmosphere interactions.
8. Circulation and vorticity. Potential vorticity. Cyclonic and anticyclonic circulation.
9. Quasi-geostrophic approximation. Numerical Weather Prediction. Mid-latitude circulations.
10. Waves in the atmosphere and in the ocean: acoustic, gravity, inertio-gravity, Rossby waves.
11. Hydrodynamic instabilities in the atmosphere and in the ocean. Baroclinic instability. Mesoscale circulations.
12. Global circulation. Energetics of global circulation. Heat transport in the ocean and in the atmosphere.

Assessment will be based on documented abilities to solve problems (colloquies and written homework) as well as on theory understanding. Percentage of the final score:

- 50% problems solved in the course of written colloquies (the first colloquium in mid-term, the second colloquium at the end of the term, together with the written theoretical exam);

- 10% home exercises and problems;

-40% - theoretical exam (written).

The additional condition: theoretical exam threshold must be passed.

Bibliography:

basic:

Geoffrey K. Vallis, Atmospheric and Oceanic Fluid Dynamics

J.R. Holton, An Introduction to dynamic meteorology

COURSES MATERIALS
Lectures / Leader Lecture type

Szymon P. Malinowski

Jan. 26, 2022, 12:15 p.m.

The list of questions on the theoretical exam.

Lecture documents:
Exam questions - Information for students
DAO-exam-questions.pdf
Lecture

Szymon P. Malinowski

Jan. 19, 2022, 12:15 p.m.

Rossby waves. Lorenz Energy Cycle.

Lecture documents:
Lecture 12 - Presentation
DAO-w12-2020.pdf
Lecture

Szymon P. Malinowski

Jan. 12, 2022, 3:15 p.m.

Lecture documents:
Lecture 11 - Presentation
DAO-w11-2022.pdf
Lecture

Szymon P. Malinowski

Dec. 22, 2021, 3:15 p.m.

 The Quasi-Geostrophic Vorticity Equation, Omega Equation

Lecture documents:
Lecture 10 - Script for the lecture
DAO-w10-2021.pdf
Lecture

Szymon P. Malinowski

Dec. 15, 2021, 3:15 p.m.

Quasi-geostrophic prediction

Lecture documents:
Lecture 09 - Presentation
DAO-w09-2021.pdf
Lecture

Szymon P. Malinowski

Dec. 8, 2021, 3:15 p.m.

Circulation, vorticity equation

Lecture documents:
Lecture 08 - Presentation
DAO-w08-2021.pdf
Lecture

Szymon P. Malinowski

Dec. 1, 2021, 3:15 p.m.

Ekmal layer

Lecture documents:
Lecture 07 - Presentation
DAO-w07-2021.pdf
Lecture

Szymon P. Malinowski

Nov. 24, 2021, 3:15 p.m.

Multi-Layer shallow water

Lecture documents:
Lecture 06 - Presentation
DAO-w06-2021.pdf
Lecture

Szymon P. Malinowski

Lecture documents:
Lecture 05 - Presentation
DAO-w05-2021.pdf
Lecture

Szymon P. Malinowski

Lecture documents:
Lecture 04
DAO-w04-2021.pdf
Lecture

Szymon P. Malinowski

Lecture documents:
Lecture 2/3
DAO-w02-3-2021.pdf
Lecture

Szymon P. Malinowski

Lecture documents:
Lecture 14 - Presentation
DAO-w01-2021.pdf
Lecture

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