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Unit 9: Severe Weather Lecture 1

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Title: Unit 9: Severe Weather Lecture 1


1
Unit 9 Severe WeatherLecture 1
  • Objectives
  • E4.3f - Describe how mountains, frontal wedging
    (including dry lines) convection, and convergence
    form clouds and precipitation.
  • E4.3g - Explain the process of adiabatic cooling
    and adiabatic temperature changes to the
    formation of clouds.

2
States of Water?
  • Three states of water
  • 1)Liquid
  • 2)Solid
  • 3)Gas
  • Evaporation Change from a liquid to a gas
  • Condensation Change from a gas to a liquid.

3
Evaporation
4
Humidity
  • Specific Humidity- Actual amount of water in the
    air.
  • Relative Humidity- compares actual amount with
    the maximum the air can hold at a given
    Temperature.

5
Condensation and Dew Point
  • Dew Point The temperature at which saturation
    occurs.
  • For water to condense, the air must be cooled
    below the dew point. Air may lose heat by
  • 1)Contacting a colder surface.
  • 2) Radiating Heat
  • 3) mixing with cold air
  • 4) expanding when it rises.

6
Normal Lapse Rate
  • The higher you go up in the atmosphere the colder
    it gets.
  • The Normal Lapse Rate 1 degree C per 160 meters.

7
Dry and Moist Adiabatic Rates
  • Dry Adiabatic Rate (1 degree C per 100 meters)
    (Dry)
  • When the air is saturated, it cools off slower
    (.6 degree C per 160 meters) (wet)
  • Remember the Normal Lapse Rate is 1 degree C per
    160 meters (Average)

8
Precipitation
  • Several Forms of Precipitation
  • 1) Rain
  • 2) Sleet
  • 3) Hail
  • 4) Snow
  • Condensation Nuclei

9
Dry lines
  • A dry line is a boundary that separates a moist
    air mass from a dry air mass.

10
Dry lines
  • Drier air behind dry lines lifts the moist air
    ahead of it, triggering the development of
    thunderstorms along and ahead of the dry line
    (similar to cold fronts).

11
Cloud Formation
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