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Air Temperature Chapter 3 Overview Daily Temperature Variations – Daytime Warming, Nighttime cooling – Cold Air near the surface The Controls of Temperature – Air Temperature data – Daily, Monthly, and Yearly Temps – The use of temp data – Measuring air temp Daily Temperature Variations • Air temperature is a very important weather element. Impacts us every day. If it is warm we don’t always mind the rain, but if its cold…..Or if it is 100°F outside… • A sunny day has its own cycle of warming and cooling. • Temperature lag – Sun directly overhead at noon, but noon is not warmest point of a sunny day. Why? Figure 2: The daily variation in air temperature is controlled by incoming energy (primarily from the sun) and outgoing energy from the earth's surface. Where incoming energy exceeds outgoing energy (orange shade), the air temperature rises. Where outgoing energy exceeds incoming energy (blue shade), the air temperature falls. Figure 1: On a sunny, calm day, the air near the surface can be substantially warmer than the air a meter or so above the surface. Sunlight warms ground and ground warms air very near the surface of the earth. [EX: Higher Field temperatures than air temperatures. Higher track temperatures than air temperatures.] Nighttime Cooling • As sun lowers, its energy is spread over a larger area, which reduces the heat available to warm the ground. • Sometime in the late afternoon or early evening, the earth’s surface and air above begin to lose more energy than they receive, they start to cool. • Radiational Cooling – ground and air above cool by radiating infrared energy. The ground, being a much better radiator than air, is able to cool more quickly. Shortly after sunset the earth’s surface is slightly cooler than the air directly above it. • By late night or early morning the coldest air is next to the ground with slightly warmer air above. Figure 3: On a clear, calm night, the air near the surface can be much colder than the air above. The increase in air temperature with increasing height above the surface is called a radiation temperature inversion Radiation Inversion Strong radiation inversion occurs when the air near the ground is much colder than the air higher up. Ideal conditions: • Calm conditions – no mixing • Long nights – more time for radiational cooling • Dry air, cloud-free – clear skies allow maximum cooling at the surface Figure 4: On cold, clear nights, the settling of cold air into valleys makes them colder than surrounding hillsides. The region along the side of the hill where the air temperature is above freezing is known as a thermal belt Figure 5: Orchard heaters circulate the air by setting up convection currents. Figure 6: Wind machines mix cooler surface air with warmer air above. Freeze • A coating of ice protects these almond trees from damaging low temperatures, as an early spring freeze drops air temperatures well below freezing. • A freeze occurs over a widespread area when the surface air temperature remains below freezing for a long enough time to damage certain agricultural crops Controls of Temperature • Latitude (colder near the poles, warmer near equator) • Land and water distribution (i.e. Great lakes water cools surrounding land masses in summer) • Ocean currents (warm/cold currents, upwelling) • Elevation (air cools with increased elevation) Specific Heat – the amount of heat needed to raise the temperature of one gram of a substance by one degree Celsius. – Water has a higher specific heat than land – Heats/cools more slowly than land Isotherms • Lines of equal temperature. • Displayed on weather charts Figure 8: Average air temperature near sea level in January (°F). Isotherms – lines connecting places that have the same temperature Figure 9: Average air temperature near sea level in July (°F). Figure 10: The daily range of temperature decreases as we climb away from the earth's surface. Hence, there is less day-to-night variation in air temperature near the top of a high-rise apartment complex than at the ground level. Daily, Monthly and Yearly Temperatures • Daily Diurnal range of temperature – difference between the daily maximum and daily minimum • Mean daily temperature – average of the highest and lowest temperature for a 24 hour period. • Annual range of temperature – difference between the average temperature of the warmest and coldest months • Mean annual temperature – average temperature of a station for the entire year. Figure 11: Temperature data for San Francisco, California (37°N), and Richmond, Virginia (37°N) - two cities with the same mean annual temperature. Use of Temperature Data • Heating degree day – means of estimating energy needs. People begin to use furnaces when temperature drops below 65°F. Subtract the mean temperature for the day from 65°F. (If mean temperature for day is 64°F, there would be 1 heating degree day) • Cooling degree day – subtract 65°F from mean for day (70°- 65°F = 5 cooling degree days) Figure 12: Mean annual total heating degree-days in thousands of °F, where the number 4 on the map represents 4000 (base 65°F). Figure 13: Mean annual total cooling degree-days in thousands of °F, where the number 1 on the map represents 1000 (base 65°F). Air Temperature and Human Comfort Air temperatures can feel different on different occasions. 68°F in March can feel warm after a long winter, but can feel cool on a summer afternoon. Sensible heat – Temperature we perceive Wind Chill factor – how cold the wind makes us feel Frostbite – freezing of the skin Hypothermia – rapid loss of body heat that may lower the body temperature below normal Figure 14: A section of a maximum thermometer. As air temp increases the mercury expand and freely moves past The constriction up the tube until max temp is reached. As air temp drops, the constriction prevents the mercury from flowing Back into bulb. Must be reset by whirling. Figure 15: A section of a minimum thermometer showing both the current air temperature and the minimum temperature. Instrument Shelter • 90°F in the shade? Figure 17: The max-min instrument shelter (middle box) and other weather instruments that comprise the ASOS system