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Get the latest weather update for Madison, Wisconsin at 10:00 AM CDT on 6 Aug 2002. Temperature: 67°F (19°C), Dew Point: 53°F (11°C), Relative Humidity: 61%, Wind: E16 MPH.
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MADISON’S CURRENT WEATHER Madison Weather at 1000 AM CDT 6 AUG 2002 Updated twice an hour at :05 and :25 Sky/Weather: MOSUNNY Temperature: 67 F (19 C) Dew Point: 53 F (11 C) Relative Humidity: 61% Wind: E16 MPH Barometer: 30.34R (1027.4 mb)
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TD BERTHA CURRENT IR
Current Surface Weather Map with Isobars (“iso” = equal & “bar” = weight), Fronts and Radar
Current Surface Winds with Streamlines & Isotachs (“iso” = equal & “tach” = speed) H L L L L H L H L L H H L H L L L L H H H H
Current Temperatures (°F) & Isotherms(“iso” = equal +”therm” = temperature)
Current 34,000 ft. Winds & Jet Streamwith Streamlines & Isotachs (“iso” = equal & “tach” = speed) Trough Trough Ridge
Announcements • Homework #5 is Wednesdayhttp://www.aos.wisc.edu/~hopkins/aos100/homework • 3rd Hour Exam is scheduled for Thurs. See Review Sheet that has been posted at: http://www.aos.wisc.edu/~hopkins/aos100/exams • If you have ??, please see me.
Weather along Storm Tracks(A) Warm Side vs. (B) Cold sidesee Fig. 11.15 of Moran & Morgan (1997)
ATM OCN 100 – Summer 2002LECTURE 24 (con’t.) PLANETARY-SCALE CIRCULATION of EARTH'S ATMOSPHERE • Introduction • Global Scale Prevailing Surface Winds • Average Sea-Level Pressure Patterns • Theoretical Aspects • Variations in Planetary-Scale Circulation
E. VARIATIONS IN PLANETARY-SCALE CIRCULATION(con’t.) • El Niño - Southern Oscillation [ENSO Events] • La Niña
WHAT’S INVOLVED • Long-term “Normal” Conditions • Atmospheric Component: • Semi-permanent Pressure Patterns; • Wind Circulation Regime; • Precipitation Patterns. • Oceanic Component: • Large-Scale Ocean Circulation; • Upwelling; • Sea-surface temperature patterns; • Thermocline.
El Niño Teleconnections See Fig. 10.24 Moran & Morgan (1997)
OTHER TERMS • Southern Oscillation [SO] • Variations in sea-level pressure over Pacific basin. • El Niño - Southern Oscillation [ENSO Events] • La Niña • Anomalous cooling of SST inEastern Pacific Ocean every few years.
Recent Sea Surface Temperature (SST) Anomaliesin Celsius degrees[=Current - Average SST values]NOAA-NESDIS
ATM OCN 100 - Summer 2002 LECTURE 26MID-LATITUDE WEATHER SYSTEMS:PART I: SETTING, AIR MASSES & FRONTS A. INTRODUCTION -- SCOPE of MIDLATITUDES • Geographic Extent • Human Aspect • Meteorological Significance of Midlatitudes
B. AIR MASSES • Definition • Body of air with uniform horizontal temperature & moisture characteristics: • at any level; • over large area. • Historical Perspective • Present use from 1920’s
B. AIR MASSES (con’t.) • Air Mass Considerations • Used to describe weather regimes • Air Mass Characteristics • Dimensions – 1000’s of kilometers. • Life History – days to a week. • Requirements For Air Mass Generation • Large, uniform source region • Relative long residence time
B. AIR MASSES (con’t.) • Traditional Air Mass Classification Scheme & Analysis • Temperature • Humidity • Primary Air Mass Types
Principal North American Air Masses & Source RegionsSee Figure11.1, Moran & Morgan (1997)
B. AIR MASSES (con’t.) • Air Mass Modification • Lake Effect Snow -- An Example
C. FRONTSorFRONTAL ZONES • Introduction • Historical concept from Norwegian School • Principal Global Frontal Zones
Air Masses, Fronts & the Planetary Scale Circulation RegimeSee Figure 10.4, Moran & Morgan (1997) Polar Air Polar Front Equatorial Front Tropical Air Polar Front
C. FRONTSorFRONTAL ZONES (con’t.) • Introduction • Historical concept from Norwegian School • Principal Global Frontal Zones • The polar front • Equatorial front (or ITCZ) • Types of Synoptic Scale Fronts • Cold Fronts • Warm Fronts • Stationary Fronts • Occluded Fronts
