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Principles of Weather QuickTime™ and a TIFF (Uncompressed) decompressor are needed to see this picture. Hurricane Jeanne, 2004 Outline • • • • Impact of severe weather Role of solar radiation Properties of water, air masses Effects from Earth’s rotation Severe Weather • Includes thunderstorms, cyclones, floods, hurricanes, tornadoes • Counting all natural hazard effects, severe weather leads to ~75% of yearly fatalities and damage 2004 - Hurricanes Jeanne, Ivan, Frances, and Charley produced ~150 fatalities, $41.5 billion damage (from NOAA website) Weather vs. Climate • Weather: condition of the atmosphere at any particular time/place • Made of several elements – – – – – – Air temperature and pressure Humidity Clouds Precipitation Visibility Wind Weather vs. Climate • Climate: “Average weather” • Described for a particular region over a specified time Atmosphere • Thin gas envelope that surrounds the planet • Most within 30 km of the surface of the planet • Mostly composed of – – – – Nitrogen Oxygen Smaller amounts of water, carbon dioxide, ozone Clouds with liquid water and ice • Important: shields from UV radiation, space junk Atmosphere • Made of several layers – – – – Troposphere Stratosphere Mesosphere Thermosphere • Weather “contained” within troposphere – From surface to 11 km above, air molecules are well stirred, rising and falling in this layer Air pressure • Air molecules have weight - exert force on surface (atmospheric pressure) – Weight of air above, so pressure decreases with height • Measured in units of pressure (millibars) – Sea level atm. pressure ~1013 mbar • Commonly measured with barometer – Height of mercury – 1013 mbar ~30 inches barometric pressure Air pressure and temperature • Packet of air rises – Air pressure lower, air expands – Temperature: related to air molecule speed • Expansion lowers speed, lowers temp – Rising air: expands, cools • Packet of air sinks – Air pressure higher, air contracts – Squeezing leads to more collisions, higher speed, higher temp – Sinking air: contracts, warms Role of Atmospheric Heating • Sun provides significant amount of heat • Reflected and absorbed • Most radiation absorbed in equatorial belt (32ºN-34ºS) – Polar latitudes have net cooling Fate of Heat • Some trapped in rock at surface • Some absorbed in water/water vapor in air – Different amounts of heat lead to heat transport, moving air masses, storms Water and Heat • High heat capacity • Water and air can move heat around through convection • Water changing phase - change in heat – Ice to water: latent heat stored in water – Water evaporation: latent heat of vaporization – Vapor condensation: latent heat of condensation Temperature and Water • Amount of water in air: humidity • Higher temperatures mean more water vapor can be stored in the air (higher humidity) Back to Air Movement • Convection: warm air rises, cool air sinks • Warm rising air – Pressure, temp lower, less water vapor it can hold. Condensation forms clouds. • Cool sinking air – Pressure, temp higher, can hold more water vapor. Clear skies result. Vertical vs. Horizontal Motion of Air • Vertical motions set up pressure differences at surface – Hot air at surface wants to rise - lower pressures at surface – Cold air sinking leads to higher pressures at surface • Horizontal motion from high to low pressures • If pressure gradient only force, winds move strictly from high to low pressure Examples of Surface Pressures • Commonly find high pressures in southwest US in summer • Arctic in winter - surface high pressures Effects from Rotation • Toss a ball on a merry-go-round Still straight-line motion, but merry-go-round moves beneath it. Sitting on merry-go-round, it appears like some force deflected the ball. Coriolis Effect • Apparent force due to rotation of Earth (changes direction, not speed) • Northern Hemisphere: winds deflected to right • Southern Hemisphere: winds deflected to the left • Effect greatest near poles, less at equator • Important for paths of ocean currents, large winds, hurricanes Effects on Winds • If just difference in solar radiation (no rotation), get simple convection cells (Hadley cell) Too Simple! • Better description is a 3 cell model • Also patterns influenced by continents, seasonal variations in radiation Example fig Jet Streams • Narrow high velocity winds that flow west to east • Operate high in the atmosphere (10-14 km) • 2 main jets – Polar *more impact on weather – Subtropical Polar Jet Stream • West-east motion occurs along boundary between polar cells and mid-latitude cells • High temperature contrast leads to high velocity of the jet stream • Path is variable, influences movement of large air masses – Summer: over Canada – Winter: over U.S. Common Polar Jet Stream Path in U.S. Characteristics of Large Air Masses • • • • • Polar air masses: cool Tropical air masses: warm Land based air masses: dry Water based air masses: moist Over North America, dominant direction of motion is W-E Fronts • Boundaries of air masses • Sloping surface separating air masses of different temperatures, moisture content • Typically where you get clouds, precipitation, severe weather Examples of Fronts Fronts • Advancing cold front: pushes warm air up – Can produce clouds, thunderstorms •Advancing warm front: gentle slope, rises above cold front –Produces widespread clouds • Cold front meeting warm front, bends rain Next Time • Mid-Latitude Cyclones and Thunderstorms Mean 81.7 A: 90-100 B: 80-89 C: 70-79 D: 60-69 F: 59 and below Midterm Exam Problem Questions • #2: Compressional forces lead to reverse faults (hanging wall moves up) • #4: New Madrid region is an old rift zone • #9: Earth is 4.6 billion years old (4600 million) • #13: Magma viscosity is lowered by higher temperatures, lower crystal content, lower SiO2 (answer all of these) • #14: Lake Nyos event was a big carbon dioxide burp! Problem Questions • #17: P waves can travel through solid, liquid, and gas • Translational slides move down on weak planar surfaces • Historical earthquakes in the Rio Grande rift (hint here) have been related to extensional forces, not compressional forces (answer false) Hints for Next Time • Read each question carefully • Look for hints in the question • Attend class, particularly when video clips are presented (not posted on website)