1. Fronts Mountains Heat Capacity Latent Heat “The Weather”

2. Clouds and Rain Cloud formation and precipitation is determined ultimately by the vertical movement of air. Upward motion enhances cloud formation Cloud formation leads to rainfall. Warm air holds more moisture than cold air. As warm air rises, it cools and cannot hold moisture

3. Clouds Clouds form when moisture condenses from the atmosphere. When the moisture in clouds is sufficiently abundant, raindrops or snow falls to the earth’s surface. Clouds form when moisture condenses from the atmosphere. When the moisture in clouds is sufficiently abundant, raindrops or snow falls to the earth’s surface. If clouds are condensed moisture (liquid water), how do clouds float in the air?

4. How do Clouds Float? Size: 10 micons Velocity: 0.3 cm/sec or 10 meters/hr ETA: 350 hours (3500 m or 10,500 ft) Updrafts Evaporation Terminal Velocity Updrafts Evaporation Terminal Velocity It takes about 15 million cloud droplets to form the typical raindrop 120 to 200 mph

5. Precipitation: Rainfall

6. 70% of earth surface covered by oceans Ocean evaporation accounts for 90% of precipitation. 10% to land 90% to Oceans Residence time in atmosphere: 14 days Evaporation 4,200 bgd Rainfall

7. Rainfall and Rainfall Types Frontal Orographic Convective

8. Frontal Two masses of air of different temperature, humidity and density meet Warm air is “lighter” than cool air. Warm air rises over cool air.

9. Cold Fronts and Warm Fronts

10. Orographic Rainfall Warm moisture-laden wind blowing in to the land from the sea encounters a natural barrier

11. Warm Moist air Air cools Rainfall Dry Air mountain Prevailing wind Ocean Orographic Lifting

12. High rainfall Low rainfall Prevailing wind Rain shadow wet dry 39” 18” 110”

13. The Mojave Desert Sierra-Nevada 5000-13,000 ft.

14. Convective Rising of warm, moist air due to surface heating Equatorial Regions Florida Southeast

15. Sun warms water or land Low pressure cools

16. High Amounts of Solar Heating Moist Air Where? When? Hurricanes are Convective Storms

17. Hurricane season = June - November * When?

18. June 23.26 o September

19. equator 30 o N wind Atlantic Hurricanes develop between 8 o and 20 o latitude Warm water and Coriolis circulation

20. Solar heat Warms water Water Evaporates 580 cal/g heat Cooling and Rainfall Releases 580 cal/g of heat Ordinary Thunderstorm

21. Rising moist air Contains 580 cal/g heat. Low Pressure inflow Cooling and Condensation Release of latent heat (580 Cal/g) Condensation and release of latent heat (580 Cal/g) Rising air Intensifies

22. Rising moist air Low Pressure inflow Condensation and release of latent heat (580 Cal/g) Condensation and release of latent heat (580 Cal/g) Increasing pressure vent

23. Tropical Disturbance Large cluster of thunderstorms forming over tropical waters. Intensify or Dissipate 1 st sign of hurricane genesis

24. Tropical Storm Lower pressure Organization and cyclonic circulation

25. Heat Moisture Circulation Low pressure Warm moist air Hurricane Pressure: 1013.25 mbars is normal, 882 is record.

26. Hurricane Formation as Convective Storms Cyclonic Easterly wind

27. Category 1 -- Winds 74-95 mph Category 2 -- Winds 96-110 mph Category 3 -- Winds 111-130 mph Category 4 -- Winds 131-155 mph Category 5 -- Winds over 155 mph. Central Pressure – pressure at the center of the storm low pressures indicate strong storms Wind shear – upper level winds which can prevent rapid rising of air and decreased pressure Tropical Storm – cyclone in which the maximum sustained surface wind speed ranges from 39 mph to73 mph Tropical depression – a closed low pressure area with organized convection, heavy rain, and winds up to 38 mph Hurricanes: Saffir-Simpson Scale

28. Wind Shear Wind shear or high upper level winds can dissipate a hurricane Cooler water can also dissipate a hurricane

29. Extra Credit Question: Identify the 3 types of rainfall discussed. Answer on the back of the lecture question sheet (You may use your notes)

30. Other Extreme Weather

31. <10in Rainfall Extremes

32. HIGHEST AVERAGE ANNUAL RAINFALL Tutunendo, Colombia - 463.4 inches (38.6 ft) HIGHEST IN ONE YEAR Cherrapunji, India 1,042 inches (86.8 ft) HIGHEST IN 24 HOURS Fac Fac, La Reunion Island 72 inches (6 ft) Records

33. Time Period Amount 12 hr 1144 mm (45.0") 24 hr 1825 mm (71.8") 48 hr 2467 mm (97.1") 72 hr 3240 mm (127.6") 10 day 5678 mm (223.5") Reunion Island 18.5 ft rainfall in 10 days

34. Driest Weather

35. 0.8 mm/yr 0.03 in/yr Arica, Chile Cool water the longest rainless period in the world 14 years

36. U.S. Weather

37. Phoenix 7.6 in Chicago 36 NYC 41 Miami 59 50 - 60 in yr 767 rainless days at Bagdad

38. LocationInches Quillayute, Washington101.7 Astoria, Oregon67.1 Mobile, Alabama66.3 Pensacola, Florida64.3 New Orleans, Louisiana64.2 Tallahassee, Florida63.2 Baton Rouge, Louisiana63.1 West Palm Beach, Florida61.4 Continental United States

39. most rainy days/yr Mt. Waialeale Highest annual rainfall in the U.S. 3000 ft in ½ mile Orographic Rainfall

40. JanFebMarAprMayJunJulAugSepOctNovDec Avg. High 65°68°74°80°86°88°90° 87°81°74°68° Avg. Low 42°44°50°55°62°68°70°71°68°58°50°44° Mean 54°56°64°68°74°78°81° 78°70°62°56° Avg. Precip. 3.4 in4.3 in3.7 in2.6 in3.8 in6.8 in 8.0 in5.3 in1.8 in2.3 in3.3 in Gainesville 52 inches } 41%