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Energy balance climate model, computing empirical orthogonal functions by singular value decomposition, hypsometric equations, Stefan-Boltzman radiation, Planck's law, geostropic approximation, conservation laws of climate dynamics, climate data plotting and visualization, and analysis of satellite data and model data.

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MATH596-Climate-Mathematics

Course Syllabus Contents:

  1. Energy balance climate model
  2. Computing empirical orthogonal functions by singular value decomposition
  3. Hypsometric equations
  4. Stefan-Boltzman radiation
  5. Planck's law
  6. Geostropic approximation
  7. Conservation laws of climate dynamics
  8. Climate data plotting and visualization
  9. Analysis of satellite data and model data

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Energy balance climate model, computing empirical orthogonal functions by singular value decomposition, hypsometric equations, Stefan-Boltzman radiation, Planck's law, geostropic approximation, conservation laws of climate dynamics, climate data plotting and visualization, and analysis of satellite data and model data.

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