1 / 31

Air Masses, Fronts and Storms

Air Masses, Fronts and Storms. Pages 670-673. An air mass is a large "bubble" of air that sits over an area a long time. It sits there long enough to take on the characteristics of the area. General Characteristics. Maritime will be moist Continental dry

anja
Download Presentation

Air Masses, Fronts and Storms

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Air Masses, Fronts and Storms Pages 670-673

  2. An air mass is a large "bubble" of air that sits over an area a long time. • It sits there long enough to take on the characteristics of the area.

  3. General Characteristics • Maritime will be moist • Continental dry • Maritime and continental are abbreviated with small letters • Arctic will be cold • Polar not quite as cold • Tropical Warm

  4. The names are a combination of letters that tell where they formed • 1st over land or sea • Continental c • Maritime m • Small letters • 2ndapproximate latitude • Artic A • Polar P • Tropical T • Capital letters

  5. Continental Polar (cP) Source • Formed over continent • Near poles Characteristics • Cold • Dry

  6. Put the letters together to form the name of an air mass What will the characteristics of these air masses be? • mA • cA • cT • cP

  7. Maritime Tropical (mT) Source • Near equator and over water Characteristics • Warm • Moist

  8. Characteristics • cP continental polar • cold, dry, stable • cT continental tropical • hot, dry, stable air aloft--unstable surface air • mP maritime polar • cool, moist, and unstable • mT maritime tropical • warm, moist, usually unstable

  9. OK, remember air masses? • Continental polar and continental arctic produce cold dry winters • Maritime polar and maritime arctic pick up moisture and bring cool moist weather • Continental tropical - hot, dry • Maritime tropical - warm, humid

  10. Fronts • Fronts form where air masses collide • Cold front • Cold air invades warm air • Warm front • Warm air invades cold air • We find a variety of weather at fronts

  11. Front types • When the two masses meet, the differences in temperature, moisture and pressure can cause one air mass to override the other.  • They are named for the invader • If cold air invades warm air--cold front • If warm air moves into cold air--warm front • If neither air mass is moving a stationary front • If a cold front over takes a warm front it is an occluded front • Fronts are accompanied by wind, clouds, rain, and storms.  

  12. Approaching cold front

  13. Approaching warm front • Less dense air gradually rises over the cold denser air • Less obvious and more gradual than cold front • Cirrus clouds • Thicken into altocumulus and altostratus • Sky turns gray • Light to moderate rain or snow develops • At front rain or snow turns to drizzle

  14. Warm front animation • source: http://www.learn-line.nrw.de/angebote/klima/medio/bilder/wfront.gif

  15. Where they meet we find a variety of weather fronts

  16. Atmospheric Lifting For clouds to form air must lift. • 3 lifting mechanisms • Convectional • Orographic • Frontal

  17. I. Convectional Lifting • Some areas of Earth's surface pick up heat better than others. • As air warm it becomes less dense and rises. As it rises it cools and sinks

  18. Circulatory motion is called convectional lifting • If cooling occurs close to the air's saturation temperature, condensing moisture forms a cumulus cloud • Form and dissipate over the same area

  19. II. Orographic Lifting • An air mass is lifted when it is pushed upward over an obstacle such as a mountain range

  20. As rising air cools, if it is humid, it forms a cloud • If stable air stratus • If unstable air cumulus

  21. As air moves down the other slope it warms The Name of the Wind is Chinook

  22. The descending air is dry because the moisture was removed on the other side.

  23. This is called theRain Shadow Effect. • Example: Eastern Colorado and western Kansas • See figure 27.10

  24. III. Frontal Lifting • When fronts collide warm less dense air is forced up over cold dense air

  25. Thunderstorm Formation • As cold air pushes into warm moist air, the cold more dense air stays low and the warmer less dense air is pushed up rapidly • This rapid upward movement forms thunderstorms

  26. Fronts—dryline summarize • The source region for cT air is the desert Southwest, the high plains and Mexico with relation to the United States. The air has low dewpoints and warm to hot afternoon temperatures but with mild nighttime temperature. Skies are generally clear in cT air. This allows daytime heating during the day and radiational cooling at night. The cT air mass is most prevalent in summer; in the cool season it is not as discernible. Due to the buoyancy and elevation of cT air across North America, this air will advect into the mid-levels of the atmosphere once it moves out of its source region. This creates a cap of mild dry air. If this air advects over PBL mT air, the severe thunderstorm threat increases significantly. The boundary of cT is most noticeable with the creation of a dryline. A dryline separates mT air from cT air. Depending on the strength of the dryline, convergence along the dryline and the dynamics above the dryline, severe thunderstorms can form near a dryline boundary.

  27. Hail Formation • Hail stones form by accretion • Small hail gets caught up in the updraft and goes to the top of the cloud where it receives another layer of ice • This repeats until the hail cannot be supported by the updraft and it falls

  28. Hail requiresstrong updrafts to form • For the smallest hail to form, an updraft of around 36 to 54 km/h (24-34 mph) is required. • golf-ball size (1 3/4 inch diameter) -- require updrafts of around 88 km/h (55 mph) to form. • Softball-size hail involves updrafts exceeding 160 km/h (100 mph).

  29. Record Hail • Record hail fell in Coffeyville, KS • diameter 14.4 cm (5.67 inches) • Credit: NOAA Photo Library

More Related