Presentation is loading. Please wait.

Presentation is loading. Please wait.

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

Published byTyrone Maximillian Cook Modified over 9 years ago

Similar presentations

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

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

Similar presentations

Introduction to Oceanography

Introduction to Oceanography
Earth’s Climate System Air and Ocean Circulation

Earth’s Climate System Air and Ocean Circulation
Topic: Ocean Systems Essential Question: How does energy from the Sun drive wind and ocean currents?

Topic: Ocean Systems Essential Question: How does energy from the Sun drive wind and ocean currents?
Circulation in the atmosphere

Circulation in the atmosphere
Chapter 15 Global Circulation: Big Picture: Idealized View Ferrel cell Polar cell.

Chapter 15 Global Circulation: Big Picture: Idealized View Ferrel cell Polar cell.
General Circulation and Kinetic Energy

General Circulation and Kinetic Energy
Thermal Energy… More Energy??? Yes, More Energy. Its getting hot in herre… All matter is made up of moving particles and has kinetic energy. Kinetic Energy.

Thermal Energy… More Energy??? Yes, More Energy. Its getting hot in herre… All matter is made up of moving particles and has kinetic energy. Kinetic Energy.
Causes of Weather Chapter 12 Section 1. Meteorology Study of atmospheric phenomenon Meteor – Anything high in the sky Rain droplets Clouds Rainbows snowflakes.

Causes of Weather Chapter 12 Section 1. Meteorology Study of atmospheric phenomenon Meteor – Anything high in the sky Rain droplets Clouds Rainbows snowflakes.
General Circulation and Climate Zones Martin Visbeck DEES, Lamont-Doherty Earth Observatory

General Circulation and Climate Zones Martin Visbeck DEES, Lamont-Doherty Earth Observatory
CLIMATE WHAT IN FLUENCES the Climate of a region?

CLIMATE WHAT IN FLUENCES the Climate of a region?
Dynamics Energetics of General Circulation In the previous lecture we discussed the characteristics of the general circulation of the atmosphere In today’s.

Dynamics Energetics of General Circulation In the previous lecture we discussed the characteristics of the general circulation of the atmosphere In today’s.
AOSS 401, Fall 2006 Lecture 19 October 26, 2007 Richard B. Rood (Room 2525, SRB) 734-647-3530 Derek Posselt (Room 2517D, SRB)

AOSS 401, Fall 2006 Lecture 19 October 26, 2007 Richard B. Rood (Room 2525, SRB) Derek Posselt (Room 2517D, SRB)
General Circulation of the Atmosphere Lisa Goddard 19 September 2006.

General Circulation of the Atmosphere Lisa Goddard 19 September 2006.
Thermal Response of Climate System Weather Update Finish Seasons and Solar Elevation at Noon Heat Transfer Processes Latent Heat Transfer Heating Imbalances.

Thermal Response of Climate System Weather Update Finish Seasons and Solar Elevation at Noon Heat Transfer Processes Latent Heat Transfer Heating Imbalances.
AOSS 401, Fall 2007 Lecture 27 November 28, 2007 Richard B. Rood (Room 2525, SRB) 734-647-3530 Derek Posselt (Room 2517D, SRB)

AOSS 401, Fall 2007 Lecture 27 November 28, 2007 Richard B. Rood (Room 2525, SRB) Derek Posselt (Room 2517D, SRB)
Heating of the Atmosphere

Heating of the Atmosphere
Heating of the Atmosphere. What is Thermal Energy? Thermal means “heat.” Thermal means “heat.” Thermal energy is the heat made when molecules move. The.

Heating of the Atmosphere. What is Thermal Energy? Thermal means “heat.” Thermal means “heat.” Thermal energy is the heat made when molecules move. The.
Weather & Climate 4.1.

Weather & Climate 4.1.
UNIT THREE: Matter, Energy, and Earth  Chapter 8 Matter and Temperature  Chapter 9 Heat  Chapter 10 Properties of Matter  Chapter 11 Earth’s Atmosphere.

UNIT THREE: Matter, Energy, and Earth  Chapter 8 Matter and Temperature  Chapter 9 Heat  Chapter 10 Properties of Matter  Chapter 11 Earth’s Atmosphere.
Ocean and Atmosphere. Earth’s Heat Budget and Atmospheric Circulation Atmospheric properties Earth’s Energy Budget Vertical Atmospheric Circulation Surface.

Ocean and Atmosphere. Earth’s Heat Budget and Atmospheric Circulation Atmospheric properties Earth’s Energy Budget Vertical Atmospheric Circulation Surface.

Similar presentations

Ads by Google