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►Weather forecasting dates back to 650 B.C. The Babylonians observed cloud patterns to predict weather. ►Aristotle described weather patterns in Meteorologica around 350 B.C. ►Forecasting was based on simple scientific observation. Example - if sunset was red then fair weather was predicted for the following day “Red sky at night, sailor’s delight…red sky at morning, sailor’s warning” ►During the Renaissance weather forecasting improved. ►Galileo Galilei invented the thermometer in the 16th century. Temperature ►Evangelista Torricelli invented the mercury barometer in the 17th century. Air Pressure These instruments enabled quantitative observation a giant leap toward modern meteorology, the scientific study of Earth’s atmosphere. ►1820, the German astronomer and meteorologist Heinrich Wilhelm Brandes published the world’s first weather charts. ►The invention of the electric telegraph in 1835 was when the modern age of weather forecasting began. The telegraph allowed reports of weather conditions from a wide area to be received almost instantaneously. Modern Weather Forecasting: Technology and Precision Radar, satellites and computers have been used regularly in weather forecasting since the late 20th century. There are 5 basic types of maps: 1.Pressure 2.Aviation 3.Temperature 4.Streamline 5.Station Model ►Tells the air pressure ►Gives the locations of high-pressure areas and lowpressure areas Low Pressure and Bad Weather Air warmed by the sun on the earth's surface can hold more moisture than cool air. As the warm moist air rises, it begins to cool. Eventually, the air reaches a level where it is too cool to continue to hold its moisture. At this point the moisture condenses out to become clouds. The clouds release their water as precipitation. High Pressure and Clear Weather High pressure areas are produced by cooler, heavier, sinking air. This air contains less moisture and is more stable. In the summer, high pressure usually means sustained sunshine, few clouds, low winds, high temperatures, and dry weather. In winter, the lack of cloud cover can cause the temperatures to be very cold, since the lack of clouds allows heat from the earth to travel away from the earth. Tells information necessary for safe flight of aircraft: ►Wind speed and direction ►Dew point ►Cold and warm fronts ►Icing areas ►Flight restriction information Shows temperature either in color-coded format or with the actual numbers. Shows wind patterns Shows the weather conditions at a particular weather station (a place where weather is measured and recorded) Several conditions are measured: ►Temperature ►Humidity ►Air pressure ►Cloud cover ►Wind speed ►Wind direction Symbols are used What information is this station model giving? Temp - 81° Dew Point – 59° Air Pressure - 221 Winds 15 mph from the NE Cloud Cover – 75% How fast is this wind blowing..AND in what direction? 65 mph from the Northwest Using the Symbol Key from the next slide…fill in this chart at your seat, then we ca Humidity refers to the amount of moisture (water vapor) in the surrounding air. RATIO of the amount of moisture in the air compared with the amount of moisture the air can hold at that temperature and pressure. Expressed as a percentage. If the air is at 90% relative humidity, sweat will not evaporate into the air. As a result, we feel much hotter than the actual temperature. If the relative humidity is low, we can feel much cooler than the actual temperature. because our sweat evaporates easily, cooling the body. The length of a strand of human hair changes with different relative humidities. As the relative humidity increases, hair becomes longer, and as the humidity drops it becomes shorter. On very humid days, your hair actually becomes longer and this extra length causes the frizziness that gives us bad hair days. Sling Psychrometer It consists of two identical mercury thermometers: Evaporating water from the wick absorbs heat from the thermometer bulb, causing the thermometer reading to drop. Find the difference between the DRY bulb and the WET bulb on the two thermometers Use the Relative Humidity Table Where the DRY bulb temperature and the DIFFERENCE between the two thermometers intersects…is your relative humidity. Example – If the DRY bulb temperature reading is 22°C and the DIFFERENCE between the two thermometers is 6°…the relative humidity is 53%