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  3. General Circulation of the Atmosphere

General Circulation of the Atmosphere (ATOC90014)

Graduate courseworkPoints: 12.5Off Campus

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Overview

Availability
Semester 1 - Off Campus
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This subject provides an introduction to the large-scale circulation features of the atmosphere and the processes that maintain them. Students will be introduced to a set of mathematical tools that will be used to analyse the transport of energy, momentum and moisture through the atmosphere and to build a conceptual picture for how these transports are achieved by the atmospheric circulation. Topics covered will include:

  • Review of the governing equations
  • Reynolds decomposition and atmospheric transports
  • Atmospheric reanalysis
  • The Hadley circulation
  • Monsoons
  • Midlatitude eddies and jet formation
  • The Ferrel Cell
  • Isentropic and transformed Eulerian mean circulations

Intended learning outcomes

On completion of this subject, students should be able to:

  • Identify the main features of the atmospheric circulation and the processes that contribute to their maintenance;
  • Apply mathematical tools to analyse the transports of energy/momentum through the atmosphere;
  • Critically engage with the scientific literature regarding the large-scale atmospheric circulation and its possible changes under climate change.

Generic skills

  • Exercise critical judgement;
  • undertake rigorous and independent thinking;
  • adopt a problem-solving approach to new and unfamiliar tasks;
  • develop high-level written report and/or oral presentation skills.

Last updated: 8 November 2024