Lecture Notes
- Lecture 1 (Aug 22) : Intro/vector analysis
- Lecture 2 (Aug27): vector reviews/forces
- Lecture 3 (Aug 29): fundamental forces
- Lecture 4 (Sept 5): Viscous force, Centrifugal force
- Lecture 5 (Sept 10): Coriolis force
- Lecture 6 (Sept 12): Coriolis force cont'd
- Lecture 7 (Sept 17): Total derivatives/Lagrangian/Eulerian frame of reference
- Lecture 8 (Sept 24): Hydrostatic equation
- Lecture 9 (Sept 26):Hypsometric equation and its application
- Lecture 10 (Oct 1): Equations of Motion in Spherical Coordinates
- Lecture 11 (Oct 10): Scale analysis - horizontal momentum equations
- Lecture 12 (Oct 15): Scale analysis - horizontal (con'd), vertical momentum equations
- Lecture 13 (Oct 22): Conservation of Mass (continuity equation)
- Lecture 14 (Oct 24): Conservation of thermodynamic energy (first law of thermodynamics), stability
- Lecture 15 (Oct 29): Equations of conservation in isobaric coordintes, Streamlines/Trajectories
- Lecture 16 (Oct 31): Balanced flow
- Lecture 16_extended (Nov 5): Balanced flow in natural coordinate
- Lecture 17 (Nov 7): Thermal wind
- Lecture 18 (Nov 26): Vertical motion and circulation
- Lecture 19 (Nov 28): Vorticity
- Lecture 20 (Dec 3): Potential Vorticity & Vorticity equation
- Lecture 21 (Dec 5): Scale analysis/Barotropic Vorticity equation