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1 Introduction, Physical Dimensions and Units, Scale analysis, Total Differentation.
2 Total Differantiation, Temperature advection.
3 Equation of motion, Fundamental forces, Equation of motion in rotating coordinates.
4 Apparent forces, Coriolis force, Centripetal force.
5 Equation of motion in spherical coordinates.
6 Component equations, Scale analysis of equation of motions, Geostrophic Equation, Friction force
7 Hydrostatic approximation, Continuity equation.
8 Tendency equation, Barometric formulas, Homogeneous and isothermal atmospheres.
9 Politropic atmosphere, Static stability, Parcel method, Stability criteria in terms of potential temperature
10 Basic equations in isobaric coordinates,.
11 Geopotential and Thermodynamic energy equation in isobaric coordinates
12 Balanced flow, natural coordinates.
13 Geostrophic, inertial and Cyclostropfic flows and gradient wind approximation.
14 Trajectories and streamlines |