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Weather

Weather. Unit 6 Climate & Weather. Weather. Weather is the day to day state of the atmosphere. Depends on temperature, precipitation, wind, pressure, clouds and visibility Driven by air masses . Air Masses. Air Mass- large body of air

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Weather

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  1. Weather Unit 6 Climate & Weather

  2. Weather • Weather is the day to day state of the atmosphere. • Depends on temperature, precipitation, wind, pressure, clouds and visibility • Driven by air masses

  3. Air Masses • Air Mass- large body of air • Defined by temperature and dew point (moisture parameters) • Air masses are classified based on the source region of the air mass itself. • Air masses are classified by its source and thermal type.

  4. Air Mass Classification Source Regions Thermal Types • Maritime (m) – originates over oceans or large bodies of water • Continental (c) – originates over land • m or c indicate influence of surface on air mass characteristics (water and land) • Tropical (T) – from low latitudes • Polar (P) – from mid-high latitudes • Arctic (A) – from high latitudes (> 65°N) • P and T suggest importance of latitude of source regions

  5. Air Mass Properties-Continental Polar (cP) Summer Winter • Source – central Canada • Ample warming of surface through insulation • Melts snow and permafrost • Cool, dry and sometimes unstable due to insulation heating of lower layers • Source – Central Canada and Siberia • Frozen surface – ice and snow • Intense radiation cooling, lack of insulation heating • Extremely cold, stable, and dry • Clouds are non-existent

  6. Air Mass Properties • Continental Tropical (cT) • Summer Only • Source – Northern Mexico and extreme SW deserts of US • Hot, dry and unstable

  7. Air Mass PropertiesMaritime Polar (mP) Summer Winter • Source – open oceans in high latitudes – Gulf of Alaska and North Atlantic • Cool and moist in lower layers and cool and dry aloft • Overall temperature higher than in winter • Instability in lower layers • Source – open oceans of high latitudes – Gulf of Alaska and North Atlantic • cP air mass from Syberia becomes mP air mass as it moves over ocean • Lower layers modified by warmer water surface • Cool, moist, unstable in surface layers • Cool, dry aloft

  8. Air Mass PropertiesMaritime Tropical (mT) Summer Winter • Source – semi permanent high centers near 15N • Very warm, moist and unstable • Source – over open ocean near 30N • Great semi permanent subtropical high pressure centers and in SW Caribbean • Warm, moist and very unstable

  9. Fronts • Front- a narrow transition zone between two or more air masses with different densities. • Depends on temperature and humidity • 4 types of fronts: • Cold • Warm • Stationary • Occluded

  10. Front Properties • Cold Front- cold air advancing replacing warm air. • Leading edge of cold air • cP replacing mT • cP due south, mT due north • Shown by solid blue triangles oriented towards the direction in which front is moving • Rapid movement – up to 30 mph

  11. Front Properties • Cold dense air wedges under warm air forcing it upwards • The faster the front the steeper the slope of the front • Cold fronts are associated with dramatic changes in weather

  12. Front Properties • Warm front- Transition zone between a retreating cold air mass and advancing warm air mass • Shown by red half-circles pointing in the direction of where it’s going • Warm and moist mT replacing dry cold mP

  13. Front Properties • Frontal changes are less abrupt than cold air frontal passages • Long spells of cold weather do not come to a rapid end • Cold air lies as a wedge under warm air • As warm front approaches depth of cold air decreases • Warm fronts are slow and depending on the moisture of the air can bring storms

  14. Front Properties • Stationary front- an air mass with no movement • Shown by alternating red half circles and blue triangles • Obstacles prevent front from progressing • Mountain ranges

  15. Front Properties • Occluded fronts- a frontal system that forms when a cold front over takes a warm front • Designated by a purple line with alternating purple triangles and purple semi-circles, all pointing in the direction of the frontal movement. • 2 types cool-type & cold-type

  16. Fronts on Weather Maps Weather map symbols:1. cold front;2. warm front;3. stationary front;4. occluded front;5. surface trough;6. squall/shear line;7. dry line;8. tropical wave

  17. Troughs, Squalls, Dry-Lines, Tropical Waves • Trough: an elongated region of relatively low atmospheric pressure, usually coming before a cold front

  18. Squall: a sudden, sharp increase in wind speed which is usually associated with active weather, such as rain showers, thunderstorms, or heavy snow • A squall line is a line of severe thunderstorms that can form along or ahead of a cold front

  19. Squall Line

  20. Dry Line • A boundary separating moist and dry air masses

  21. Dry Line

  22. Tropical Wave • a type of atmospheric trough, an extended area of moderately low air pressure, leaning north to south, which move from east to west across the tropics creating areas of cloudiness and thunderstorms • Approximately 60% of Atlantic tropical cyclones originate from tropical waves, while approximately 85% of intense Atlantic hurricanes (Category 3 and greater) develop from tropical waves

  23. Tropical Wave

  24. Global Wind Systems: Polar Easterlies, Prevailing Westerlies, & Trade Winds • Polar easterlies: wind zones between 60◦ N latitude and the north pole, and 60◦ S latitude and the south pole • Dense, polar air • As earth spins, it is deflected in an easterly direction away from each pole. • Cold, weak, sporadic

  25. Global Wind Systems: Polar Easterlies, Prevailing Westerlies, & Trade Winds • Prevailing Westerlies: wind systems located between latitudes 30▫ N and 60▫ N, and 30▫ S and 60▫ S • Originate from the west • Steady winds

  26. Global Wind Systems: Polar Easterlies, Prevailing Westerlies, & Trade Winds • Trade Winds: 2 circulation belts of wind between latitudes 30▫ N and 30▫ S • Air sinks, warms, and moves toward the equator in an easterly direction, then rises and moves back towards 30▫ N and 30▫ S, where it sinks and the process repeats. • the sinking air associated with trade winds creates an area of high pressure, resulting in a belt of weak surface winds called horse latitudes

  27. Jet Streams • A large temperature gradient in upper-level air combined with the Coriolis effect results in strong westerly winds called jet streams. • A narrow band of fast wind

  28. Hadley, Ferrel, and Polar Cells • Hadley cell: the strongest of the three cells of circulation • formed as warm air rises above the Equator and starts to flow northward.

  29. Hadley, Ferrel, and Polar Cells • Ferrel Cell: The mid-latitude circulation cell between the Polar cell and the Hadley cell

  30. Hadley, Ferrel, and Polar Cells • Polar Cell: Cold dense air descends over the poles, which creates high pressure • this cold air moves along the surface to lower latitudes. • At around 60°N & 60°S, this air has been warmed up and rises upwards, creating a zone of low pressure.

  31. Weather Tools

  32. Hygrometer • an instrument used for measuring the moisture content in the environmental air, or humidity.

  33. Psychrometer • two thermometers, one which is dry and one which is kept moist with distilled water on a sock or wick. The two thermometers are thus called the dry-bulb and the wet-bulb. • Used to find relative humidity.

  34. Anemometer • a device for measuring wind speed, and is a common weather station instrument.

  35. Barometer • a scientific instrument used in meteorology to measure atmospheric pressure.

  36. Thermometer • a device that measures temperature or temperature gradient using a variety of different principles.

  37. Rain Gauge • a type of instrument used by meteorologists and hydrologists to gather and measure the amount of liquid precipitation over a set period of time. • also known as a udometer or a pluviometer or an ombrometer or a cup

  38. Wind Vane • an instrument for showing the direction of the wind. They are typically used as an architectural ornament to the highest point of a building.

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