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The Atmosphere: Part 5: Large-scale motions Composition / Structure Radiative transfer Vertical and latitudinal heat transport Atmospheric circulation.

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Presentation on theme: "The Atmosphere: Part 5: Large-scale motions Composition / Structure Radiative transfer Vertical and latitudinal heat transport Atmospheric circulation."— Presentation transcript:

1 The Atmosphere: Part 5: Large-scale motions Composition / Structure Radiative transfer Vertical and latitudinal heat transport Atmospheric circulation Climate modeling Suggested further reading: Holton, An Introduction to Dynamical Meteorology (Academic Press, 1979)

2 Calculated rad-con equilibrium T vs. observed T pole-to-equator temperature contrast too big in equilibrium state (especially in winter)

3 Zonally averaged net radiation Diurnally-averaged radiation Implied energy transport: requires fluid motions to effect the implied heat transport Observed radiative budget

4 Roles of atmosphere and ocean Trenberth & Caron (2001) net ocean atmosphere

5 Basic dynamical relationships Ω φ u Ω Ωsinφ Equation of motion Shallow atmosphere: } z - coordinates } p - coordinates

6 Basic dynamical relationships Ω φ u Ω Ωsinφ Equation of motion Shallow atmosphere: } z - coordinates

7 Basic dynamical relationships Ω φ u Ω Ωsinφ Equation of motion Shallow atmosphere: } z - coordinates } p - coordinates

8 Geostrophic balance

9 thermal wind shear balance

10 Rotating vs. nonrotating fluids

11

12 Ω φ u Ω Ωsinφ f = 0 f > 0 f < 0

13 Atmospheric energetics: where does the energy of atmospheric motions come from? Flattening density/temperature surfaces always reduces potential energy

14 Atmospheric energetics: where does the energy of atmospheric motions come from? Flattening density/temperature surfaces always reduces potential energy Available potential energy inherent in density/temperature gradients

15 Atmospheric energetics: where does the energy of atmospheric motions come from? Flattening density/temperature surfaces always reduces potential energy Available potential energy inherent in density/temperature gradients In order to generate available potential energy, on average must heat where hot and cool where cold: > 0

16 Atmospheric energetics: where does the energy of atmospheric motions come from? Flattening density/temperature surfaces always reduces potential energy Available potential energy inherent in density/temperature gradients In order to generate available potential energy, on average must heat where hot and cool where cold: > 0 In order to release available potential energy (and generate motion), on average, warm air must rise, cold air sink : > 0

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