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AOS 100: Weather and Climate

AOS 100: Weather and Climate. Instructor: Nick Bassill Class TA: Courtney Obergfell. Miscellaneous. Exam Results Median grade: 75% (88.88% for exam 1). Review of November 5 th : The LCL, LFC, and CAPE.

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AOS 100: Weather and Climate

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  1. AOS 100: Weather and Climate Instructor: Nick Bassill Class TA: Courtney Obergfell

  2. Miscellaneous • Exam Results • Median grade: 75% (88.88% for exam 1)

  3. Review of November 5th: The LCL, LFC, and CAPE • The Lifted Condensation Level (LCL) tells you where clouds would form if you forced air to rise • The Level of Free Convection (LFC) indicates where the parcel will become warmer than the environment around it, and will rise on its own • Convective Available Potential Energy (CAPE) indicates how much energy a parcel has to create a strong updraft. It represents the area between the temperature line and the parcel’s temperature

  4. An Example The red arrow indicates the LCL, while the yellow arrow indicates the LFC

  5. From: http://www.meteo.mcgill.ca/wxlab/ATOC-546/notes/lesson07.convection/2002091812.mod.gif

  6. Mountain Effects and Temperature • The air ends up warmer due to the extra latent heat release

  7. Thunderstorms • Thunderstorms (rain, lightning, gusty winds, etc.) are most commonly not severe • We call a thunderstorm “severe” when it has very strong winds, large hail, or tornadoes • Severe thunderstorms require certain atmospheric conditions • Non-severe thunderstorms are commonly called “air mass” thunderstorms

  8. Thunderstorm Climatology

  9. Thunderstorm days per year …

  10. Hail days per year …

  11. Tornadoes per year, per state

  12. Tornado frequency per month …

  13. Forcing • All of the things we learned about last class (the LCL, LFC, CAPE) only matter if there is something to force an air parcel to rise • There are many different types of forcing • Some commonly associated with thunderstorms are: - Strong surface heating - An approaching cold front - A seabreeze front - And many more … some of which we’ll learn about later

  14. Air Mass Thunderstorms The cold air from the rainfall cuts off the updraft, causing the thunderstorm to die

  15. Commonly Found Characteristics of Severe Weather • (1) Large values of CAPE (as mentioned earlier) contribute to the strength of an updraft • (2) Wind shear is the change in wind speed or direction with height - Speed shear often causes severe weather (often called a “squall line”) with strong straight-line winds - Directional shear often causes supercells and tornadoes by causing the updrafts to rotate • (3) Large amounts of moisture often allow for the LFC to be reached at a lower level in the atmosphere, and thus often result in more CAPE • In order for severe weather to occur, generally all of these need to be present in some form

  16. Directional Wind Shear • We would say that the wind is “backing” if the wind direction rotates counterclockwise with height • We would say that the wind is “veering” if the wind direction rotates clockwise with height • Generally, severe weather will only be found if the wind is veering with height

  17. Speed Shear

  18. Directional Shear

  19. Severe Thunderstorms For severe thunderstorms, the change in the wind with height forces the downdraft to be separate from the updraft, which allows the storm to live longer and become severe

  20. Detecting Severe Weather • For meteorological considerations, there are two primary types of remotely sensed observations: • RADAR • Satellite

  21. RADAR • RADAR is an acronym for “RAdio Detection And Ranging” • RADAR uses radiowaves or microwaves to detect objects • RADAR dishes send out a pulse of electromagnetic radiation, which can be reflected back by objects • The length of time it takes for the pulse to return, as well as the strength of the return pulse indicate how near/far and how big the object(s) are - From: http://en.wikipedia.org/wiki/Radar

  22. Pictures From:http://www.centennialofflight.gov/essay/Dictionary/radar/DI90G1.jpg http://www.bergenskywarn.org/Pages/BergenSkywarnUptonOpenHouse2001.htm

  23. http://www.tropicalstorms.us/current/radar.gif

  24. Thunderstorms over Michigan

  25. Doppler RADAR • Doppler RADAR makes use of the “Doppler Effect” to determine whether objects are traveling towards or away from the radar site • Doppler RADAR measures the change in wavelength of the incoming signal (compared with the signal that was sent out) http://www.grc.nasa.gov/WWW/K-12/airplane/Images/doppler.gif

  26. Velocity (from the Doppler RADAR) This feature is extremely useful for detecting tornadoes – many tornadoes are first “detected” using this method

  27. Types of Severe Weather • For our purposes, we can consider two types of severe weather: • A squall line is mostly linear continuous line of thunderstorms associated with speed wind shear, and they often produce strong straight line winds • Supercells are smaller storms associated with directional wind shear, and often cause tornados and large hail

  28. A Squall Line http://apollo.lsc.vsc.edu/classes/met130/notes/chapter14/graphics/squall_line_ex/squall_line1.gif

  29. http://www.ucar.edu/news/releases/2004/images/bowecho.radar.gifhttp://www.ucar.edu/news/releases/2004/images/bowecho.radar.gif

  30. A Supercell Reflectivity: Velocity: We call this feature a “velocity couplet”, and it often signifies a tornado From: http://kkd.ou.edu/METR%202603/supercell%20velocity.jpg

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