Presentation is loading. Please wait.

Presentation is loading. Please wait.

A few summary slides AOS C115/228 - Spring 2008. Thermals: buoyancy pressure dynamic pressure decomposition of pdyn.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "A few summary slides AOS C115/228 - Spring 2008. Thermals: buoyancy pressure dynamic pressure decomposition of pdyn."— Presentation transcript:

1 A few summary slides AOS C115/228 - Spring 2008

2 Thermals: buoyancy pressure dynamic pressure decomposition of pdyn

3 < Textbook sea-breeze circulation

4 Rotunno’s analytic solution If f >  (poleward of 30˚) equation is elliptic sea-breeze circulation spatially confined circulation in phase with heating circulation, onshore flow strongest at noon circulation amplitude decreases poleward If f <  (equatorward of 30˚) equation is hyperbolic sea-breeze circulation is extensive circulation, heating out of phase f = 0 onshore flow strongest at sunset f = 0 circulation strongest at midnight [and noon] If f =  (30˚N) equation is singular some friction or diffusion is needed circulation max at sunset onshore flow strongest at noon

5 f <  (equatorward of 30˚)  at three times sunrise noon (reverse sign for midnight) [Circ magnitude max] sunset Note coastline onshore flow max at sunset

6 Circulation vs. time Eq 30N 60N 90N sunset Physically, why does circulation magnitude decr. with latitude? Why is circ. max become earlier? Why does DTDM results differ slightly from theory? midnight

7 Hovmoller diagrams What is missing?

8 Two slides from Asai (1970a) on thermal instability

9 Slides from Asai (1972)’s two cases. One of these local max was dubbed inflection-point instability. How was that justified?

10 Weckwerth’s experiments What did we learn from these?

11 Houze’s concept model ^ T-storm project life cycle concept ^ Newton’s (1963) concept; what was wrong with it? < Browning’s multicell concept

12 How were the features in this surface pressure trace explained? How was the wake low explained?

13 What was the RKW argument, and what does its explanation imply? ^ Why do supercells seem to split? < What environmental conditions favor supercells vs. multicell storms? What was BRi?

14 What favors right-movers in US? L L How were these pressure features explained? Which terms explained splitting, which explained forward motion, how was motion to the left or right of the mean winds explained?

15 Our first look at flow near obstacles examined the “simple” case of the hydraulic jump. We soon realized this was a special case in the theory of mountain-type waves. What was the Scorer parameter and what role did it play in understanding these very different results?

16

Download ppt "A few summary slides AOS C115/228 - Spring 2008. Thermals: buoyancy pressure dynamic pressure decomposition of pdyn."

Similar presentations

Global Average Barometric Pressure: January

Global Average Barometric Pressure: January
Gravity, Friction, and Pressure

Gravity, Friction, and Pressure
Unit 9: Circulation Patterns of the Atmosphere

Unit 9: Circulation Patterns of the Atmosphere
mesovortex apex of bow echo Bow Echo: radar-observed features mid-level overhang weak echo notch bookend vortex.

mesovortex apex of bow echo Bow Echo: radar-observed features mid-level overhang weak echo notch bookend vortex.
The sea-breeze circulation Part II: Effect of Earth’s rotation Reference: Rotunno (1983, J. Atmos. Sci.)

The sea-breeze circulation Part II: Effect of Earth’s rotation Reference: Rotunno (1983, J. Atmos. Sci.)
The sea-breeze circulation Part II: Effect of Earth’s rotation Reference: Rotunno (1983, J. Atmos. Sci.)

The sea-breeze circulation Part II: Effect of Earth’s rotation Reference: Rotunno (1983, J. Atmos. Sci.)
The sea/land-breeze circulation Part I: Development w/o Earth rotation.

The sea/land-breeze circulation Part I: Development w/o Earth rotation.
First Law of Thermodynamics The internal energy dU changes when: 1.heat dQ is exchanged between a parcel and its environment 2.work is done by a parcel.

First Law of Thermodynamics The internal energy dU changes when: 1.heat dQ is exchanged between a parcel and its environment 2.work is done by a parcel.
Stochastic acceleration of charged particle in nonlinear wave fields He Kaifen Inst. Low Ener. Nucl. Phys. Beijing Normal Univ., Beijing 100875, China.

Stochastic acceleration of charged particle in nonlinear wave fields He Kaifen Inst. Low Ener. Nucl. Phys. Beijing Normal Univ., Beijing , China.
1 Diagnostics of Solar Wind Processes Using the Total Perpendicular Pressure Lan Jian, C. T. Russell, and J. T. Gosling How does the magnetic structure.

1 Diagnostics of Solar Wind Processes Using the Total Perpendicular Pressure Lan Jian, C. T. Russell, and J. T. Gosling How does the magnetic structure.
Horizontal Convective Rolls Asai papers & Simulations w/ ARPS.

Horizontal Convective Rolls Asai papers & Simulations w/ ARPS.
The influence of extra-tropical, atmospheric zonal wave three on the regional variation of Antarctic sea ice Marilyn Raphael UCLA Department of Geography.

The influence of extra-tropical, atmospheric zonal wave three on the regional variation of Antarctic sea ice Marilyn Raphael UCLA Department of Geography.
On the interaction of gravity waves and thermal tides in the middle atmosphere Fabian Senf, Erich Becker Leibniz Institute for Atmospheric Physics, Kühlungsborn.

On the interaction of gravity waves and thermal tides in the middle atmosphere Fabian Senf, Erich Becker Leibniz Institute for Atmospheric Physics, Kühlungsborn.
Unit 4 – Atmospheric Processes. Winds… Earth’s atmospheric circulation is an important transfer mechanism for both energy and mass The imbalance between.

Unit 4 – Atmospheric Processes. Winds… Earth’s atmospheric circulation is an important transfer mechanism for both energy and mass The imbalance between.
Supercell storms Storm splitting, environmental conditions, propagation.

Supercell storms Storm splitting, environmental conditions, propagation.
Severe Convection and Mesoscale Convective Systems R. A. Houze Lecture, Summer School on Severe and Convective Weather, Nanjing, 11 July 2011.

Severe Convection and Mesoscale Convective Systems R. A. Houze Lecture, Summer School on Severe and Convective Weather, Nanjing, 11 July 2011.
General circulation in the tropics

General circulation in the tropics
ROLE OF HEADLANDS IN LARVAL DISPERSAL Tim Chaffey, Satoshi Mitarai Preliminary results and research plan.

ROLE OF HEADLANDS IN LARVAL DISPERSAL Tim Chaffey, Satoshi Mitarai Preliminary results and research plan.
Newton’s Laws of Motion - 2. Multiple Objects – Example with m 2 > m 1 Draw free body diagrams for each object. In magnitude, a 1 = a 2.

Newton’s Laws of Motion - 2. Multiple Objects – Example with m 2 > m 1 Draw free body diagrams for each object. In magnitude, a 1 = a 2.
General Circulation and Climate Zones Martin Visbeck DEES, Lamont-Doherty Earth Observatory

General Circulation and Climate Zones Martin Visbeck DEES, Lamont-Doherty Earth Observatory

Similar presentations

Ads by Google