About Lecture
List of slides
  1. The Ferrel cell
  2. Equations of motion(1)
  3. Equations of motion(2)
  4. Surface Wind
  5. Phenomenology of a two-layer midlatitude atmosphere
  6. Equations of motion(3)
  7. The theory and scaling of Kolmogorov(2)
  8. An alternative scaling argument for inertial ranges
  9. The energy spectrum of 3D turbulencd in some experiments at the Princeton Superpipe facillity
  10. Two-dimensional turbulence
  11. The energy spectrum of two-dimensional turbulence
  12. Energy and enstrophy transfer
  13. Enstrophy inertial ranges in 2D turbulence
  14. The energy spectrum of forced-dissipative two-dimensional turbulence
  15. Predictability of turbulence
  16. Spectrum of a passive tracer
  17. Schematic figures of energy and passive tracer spectra
  18. Differential rotation in two-dimensional turbulence (1)
  19. Differential rotation in two-dimensional turbulence (2)
  20. The anisotropic wave-turbulence boundary
  21. Evolution of the energy spectrum in a freely-evolving two-dimensional simulation on the beta-plane
  22. Evolution of zonal mean zonal velocity
  23. Two-layer flow
  24. Baroclinic and barotropic decomposition
  25. Approximations to the equations
  26. Idealized two-layer baroclinic turbulence
  27. Scaling theory
  28. The halting scale and the beta-effect
  29. Potential vorticity flux
  30. Transformed Eulerian Mean or TEM
  31. The vorticity budget
  32. Rossby waves and momentum flux(1)
  33. Rossby waves and momentum flux(2)
  34. Sketch of the potential vorticity fluxes
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