Humidity Under what conditions do you see the above? Showers, cool drinks on a hot day, parking. Under what conditions do you see the above?
Humidity Measure of the quantity of water vapor in the air Overall atmosphere is 78% nitrogen, 21% oxygen, and only 1% water vapor. Idealized representation of the atm: a “parcel” of air
Measuring relative humidity For a parcel of air, RH is the ratio of the amount of actual water vapor in the air (AMR) divided by the maximum amount of water vapor the air can hold at the given temp (SMR)
Saturation quantity: maximum capacity of water vapor the air can hold A plot of saturated mixing ratio (left) shows that as temperature increases, the maximum amount of water the air can hold increases. Warm air can hold more water vapor than cold air The curve indicates where RH = 100%, or where the actual amount of water vapor in the air is at the maximum for that given temperature. Temperature along the line is called the dew point temperature. Saturation quantity: maximum capacity of water vapor the air can hold Numbers are idealized Air temperature
When RH = 100%: AMR = SMR Air is saturated with water vapor Air temp = dew point Water condensates out of air Suspended liquid water droplets form in the air
To reach RH = 100% Add more water vapor to the air Cool the air down to its dew point temperature Lower the air pressure of the parcel
What are our diurnal patterns of humidity? When are our maximum and minimum relative humidities? [Lexington weather conditions]
Heat (or comfort) index: the human element in humidity When RH is high, air is near dew point and holds near maximum amount of water vapor Inefficient evaporative cooling for humans Temp experienced by humans is higher than air temp Risk of heat exhaustion or stroke
Explain why and where in their homes people use these appliances and how they work Humidifier Dehumidifier
Where would you expect to use an evaporative cooling system (also known as a swamp cooler?
Measuring humidity Automated sensors most commonly used today, but basic principle of sling psychrometer (right) still applies A sling psychrometer measures difference between the dry bulb temperature and the wet bulb temperature
Dew High humidities during the day Clear night with radiative cooling Air temp cools to dew point Condensation forms on surface (dew)
Frost Radiation frost Advection frost Occurs on days with high humidities and clear calm nights Dew point temperature goes below freezing Advection frost More common on cloudy, windy nights with strong cold air advection Dew point temps go below freezing
Clouds: Air temp cooled to dew point Liquid water condensates out of water vapor RH = 100%
But most of the water vapor is at the surface But most of the water vapor is at the surface. A mechanism is needed to get water vapor to cool, condensate and form clouds. What might that mechanism be? Large amount of water vapor in red. The y-axis is denotes altitude above the surface.
LIFTING: If you can get the surface air to rise it will cool, reach dew point, and form clouds Cooler aloft Surface Large amount of water vapor in red. The y-axis is denotes altitude above the surface.
Sources of lifting
The secret of weather prediction is knowing whether or not air is rising, or if it is moving downward. An atmosphere with a propensity for rising air is unstable. This air may cool to form clouds, and potentially, rainfall. Stable denotes an atmosphere with air that is not rising or being lifted. It is not likely to form clouds or rainfall.
Adiabatic processes – changing temperature by changing air pressure Adiabatic warming Adiabatic cooling
http://youtu.be/SvqbqR2tQpo
Atmospheric stability Stability is a measure of the probability of cloud formation
The troposphere is the layer of the atmosphere in which most of our relevant weather processes take place.
Skew-t plot Red line shows air temp and blue line shows dew point temp At what pressure level are clouds likely to form ? Tracking the temperature and dew point of a parcel of air as it is lifted through the atmosphere…..
Adiabatic processes Changing the temperature of a parcel of air by changing air pressure Adiabatic cooling: parcel is lifted, surrounding air pressure decreases, and air parcel expands, parcel temp decreases Adiabatic warming: parcel descends, surrounding air pressure increases, parcel contracts, parcel temp increases
Lapse rates A lapse rate is a rate of temperature decrease per change in altitude. Three relevant lapse rates for the basics of understanding stability: ELR – environmental lapse rate; applies to environment surrounding parcel DALR (dry adiabatic lapse rate) and SALR (saturated adiabatic lapse rate); apply to parcel Lifting condensation level (LCL) – where parcel DALR switches to SALR
Stability determined by comparing lapse rates Lapse rate – rate of change of temperature The steeper the slope of a lapse rate line, the slower the rate of cooling Levels of atmospheric stability: stable, unstable, conditional instability Level of stability determined by looking at all three lapse rates.
Stable atmospheric conditions Clear skies; any cloud development is high and lacking a strong vertical dimension. Vertical motions resisted.
Unstable atmospheric conditions Cumulonimbus A thunderstorm, a hallmark of unstable atmospheric Conditions. Atmosphere promotes vertical motion.
Conditional instability Conditional instability is the most common state of the atmosphere. A lift is needed to make a stable parcel go unstable. What are the sources of lifting?
Sources of lifting
Convectional surface heating Surface heating and wind convergence lead to cloud formation on the Florida peninsula Convectional surface heating
Wind convergence and surface heating (along the ITCZ) ITCZ, zone of wind convergence and surface heating leading to low pressure and cloud formation
Orographic lifting
Rainshadow effect, a product of orographic lifting Rainshadow effects in Washington State.
Topography of Washington state
Rainshadow deserts North American rainshadow deserts: Death Valley (Sierra Nevada), eastern Washington and eastern Oregon (Cascades)
Orographic lifting Rainshadow effects on Hawaii
Orographic lifting
Frontal lifting Cold front