Chapter 4 Moisture in the Atmosphere Chapter 4 Moisture in the Atmosphere Water on the Earth has three common states solid, liquid, and vapor Each with its own unique properties Earth is the only planet we know of that has all three forms Water on the Earth has three common states solid, liquid, and vapor Each with its own unique properties Earth is the only planet we know of that has all three forms
Phase ChangeHeat TransferType of Heat Liquid to Vapor cal absorbed Latent heat of vaporization Solid to liquid80 cal absorbedLatent heat of fusion Solid to vapor680 cal absorbedLatent heat of sublimation Vapor to liquid cal releasedLatent heat of condensation Liquid to solid80 cal releasedLatent heat of fusion Vapor to solid680 cal releasedLatent heat of sublimation
Rain, ice, snow The water cycle
Distribution of water within the hydrological cycle
Relative humidity (RH) Water in atmosphere is dependent on temp. Saturation Vapor Pressure= -the maximum amount of water vapor that air can "hold" -temperature dependent -warm air "holds" more than cold air RH = Vapor Pressure Saturation Vapor Pressure measured by a number of devices
Saturation vapor pressure vs temperature
Condensation phenomena As RH goes to 100% water vapor condenses -i.e., it changes from vapor to liquid or solid forms clouds, rain, snow/ice, fog, dew must get air mass to reach saturation (approx) -accomplished by lifting & cooling, cooling, or increasing amount of water being vaporized usually have to have something for the water to condense onto...such as: -aerosols -dust particles and large molecules Condensation Factors Releases latent heat stored during vaporization
Environmental lapse rate 6.5° C per 1000 m = Avg. lapse rate dependent upon the local environmental conditions i.e., empirical = derived by measuring the avg temp of the air mass at the surface (T S ) and at the top of the troposphere (T T ) and the elevation difference between surface and troposphere (H ST ) (( T S - T T ) / (H ST )) Different from another more important lapse rate called Adiabatic lapse rate
Cloud formation (1:2) lifting of an air mass cooling due to adiabatic process -ADIABATIC - no energy lost or gained by exchanging with air that has different characteristics -
Dry lapse rate (not at saturation) > 10° C per 1000 meters (5.5 F / 1000 ft) -Wet lapse rate (at saturation point) >Heat (latent) gained as water condenses >air does not cool as fast >6° C per 1000 meters (3.3 F / 1000 ft) Adiabatic lapse rates
Means of lifting Heating (aka convectional lifting) -warmed air rises (can also have a lot of water vapor) Orographic Lifting (mountains) -air encouters a barrier and goes over the top of it Frontal Lifting (air masses with different densities -cool air is more dense than warm air >slides underneath warm air, lifting it
Frontal lifting Warm Front Cold Front
Cloud terminology is descriptive Based on cloud form or shape Cirrus = feathered or wispy Stratus= layered Cumulus=puffy also linked to elevation low, middle, high, and vertically developed - - Alto = middle also linked to precipitation nimbo (-us) = rain sometimes linked to temperature warm vs. cold clouds
Cirrus Clouds - High Clouds "Feathers" or "Wisps" or small "Puffs" almost always High clouds Usually Ice crystals - - a "mackerel" sky with small, puffed, cirrus clouds known as cirrocumulus - - and almost layered cirrostratus clouds
Perspective is everything from below, the low clouds look like stratus from above they look like cumulus in reality they are some combination of both! from below, the low clouds look like stratus from above they look like cumulus in reality they are some combination of both! - - three layers are visible here - - cirrus > > v. high - - altocirrus > > middle - - stratocumulus > > lower - - three layers are visible here - - cirrus > > v. high - - altocirrus > > middle - - stratocumulus > > lower
Cumulonimbus Clouds continued vertical development will eventually lead to Cumulonimbus clouds -these produce heavy local rains, strong winds, and thunderstorms Characterized by a tall, often flat-topped, puffy cloud form
Orographic lifting creating a lenticular cloud