Temperature, Observations, and Maps AOSC 200 Tim Canty. Weather and Climate

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Temperature, Observations, and Maps AOSC 200 Tim Canty Class Web Site: http://www.atmos.umd.edu/~tcanty/aosc200 Topics for today: Climate Weather Observations Weather Maps Lecture 03 Feb 5 2019 1 Weather and Climate 1 C (1.8 F) rise in temperature..so what? 2

Understanding the Atmosphere Weather and climate are easy to talk about. Do a google search on the words climate change and see how many hits you get. As scientists, we need to understand fundamentally what affects both weather and climate and how the two can interact. This means we re going to have to dig into some details. 3 Meteorological Observations Can be as simple as checking the thermometer outside Can be as complicated as the next generation of weather satellite https://www.nesdis.noaa.gov/goes-16 4

Today s Weather Map http://www.wpc.ncep.noaa.gov/sfc/namussfcwbg.gif 5 Today s Forecast http://www.wpc.ncep.noaa.gov/#page=ovw 6

Tomorrow s Forecast http://www.wpc.ncep.noaa.gov/#page=ovw 7 Thursday s Forecast http://www.wpc.ncep.noaa.gov/#page=ovw 8

Meteorological Observations Temperature: A measure of the kinetic energy of molecules Kinetic Energy: energy of motion Fig 1-1 Weather: A Concise Introduction 9 Meteorological Observations Celsius: melting point of water is 0 C and the boiling point is 100 C. Fahrenheit: melting point of water is 32 F and the boiling point is 212 F. Kelvin: similar to Celsius but the coldest temperature is 0K. (Kelvin scale never goes negative) Fig 2.2: Essentials of Meteorology 10

Meteorological Observations We measure temperature using a thermometer Must remember that temperature and pressure are closely related Fig 2.2: Essentials of Meteorology 11 Understanding Pressure Ideal Gas Law pressure volume = constant temperature or pressure = density temperature constant

Understanding Pressure (for the uber nerds and students in AOSC 201) where Ideal Gas Law pressure = density temperature constant sometimes written as p=nk b T p = pressure (mbar) N = number density (or concentration) (molecules / cm 3 ) K b = Boltzmann s constant (1.38 x 10-19 mbar K -1 cm 3 ) T = temperature (Kelvin) 13 Temperature and Density Ideal Gas Law pressure volume = constant temperature As temperature rises either pressure increases or volume increases

Temperature and Density Ideal Gas Law pressure = density temperature constant density = pressure temperature constant As temperature rises, density falls Temperature and Density As temperature rises and the parcel expands the air inside the parcel gets less dense (all of the air molecules are spread out over a larger volume) http://www.our-planet-earth.net/learning/3c.html

Understanding Pressure Fig 1.7: Essentials of Meteorology 17 Understanding Pressure Fig 1-6 Weather: A Concise Introduction Fig 1-9 Weather: A Concise Introduction 18

Understanding Pressure We measure pressure using a barometer. In meteorology the terms we use to describe pressure is hpa hectopascal or mbar millibar (They re the same thing!) Fig 1-9 Weather: A Concise Introduction 19 Pressure: Aneroid Barometer Low Pressure High Pressure Fig 5-3b Meteorology: Understanding the Atmosphere 20

A wind vane points in the direction the wind is coming from Wind Speed and Direction Fig 1-10 Weather: A Concise Introduction A westerly wind means winds are coming from the west Can also use degrees from North. (can you spot the mistake in the figure?) Fig 1-11 Weather: A Concise Introduction 21 Wind Speed and Direction An anemometer measure wind speed Fig 1-12 Weather: A Concise Introduction Fig 5-5 Meteorology: Understanding the Atmosphere 22

Wind Speed and Direction Beaufort Scale: Devised in 1805 to standardize reporting of wind based on observable conditions. This did not require exact knowledge of wind speed. 23 Rain: rain gauge Measures total rainfall over a time period but it has to be emptied periodically Fig 1-17 Weather: A Concise Introduction Rainfall less than 1mm is reported as a trace amount 24

Rain: tipping bucket rain gauge After the bucket fills and tips, a small signal is sent and recorded 25 Meteorological Observations Automated Surface Observing System (ASOS) Measures: cloud height visibility precipitation pressure temperature dew point wind direction wind speed rainfall amount 26

Radiosondes Weather doesn t just happen at the surface!!! 27 Meteorological Observations: College Park http://w1.weather.gov/obhistory/kcgs.html 28

Meteorological Observations: Meteogram https://www.ametsoc.org/amsedu/dstreme/images/met_iad.gif 29 Radiosondes Position of balloon Temperature Dew Pt. http://weather.rap.ucar.edu/upper/iad.gif 30

Dew Point Hygrometer When temperature is above the dew point, observed light is unchanged Fig 5-3a Meteorology: Understanding the Atmosphere 31 Humidity: Dew Point Hygrometer When temperature reaches dew point, water condenses on surface and observed light is scattered Fig 5-3b Meteorology: Understanding the Atmosphere 32

Weather Station Model The weather station model tells you what the conditions are like at the surface Fig 2-1-1 Weather: A Concise Introduction 33 Weather Station Model The central circle indicates cloud cover Fig 2-1-2 Weather: A Concise Introduction 34

Weather Station Model The symbol located between the air temperature and dew point temperature indicates significant weather Fig 2-1-3 Weather: A Concise Introduction 35 Weather Station Model The line indicates the direction the wind is coming from (in this case from the Northeast) and the barbs and pennants indicate wind speed Fig 2-1-4 Weather: A Concise Introduction 36

Weather Station Model The line indicates the direction the wind is coming from (in this case from the Northeast) and the barbs and pennants indicate wind speed Fig 2-1-5 Weather: A Concise Introduction 37 Weather Station Model Sometimes weather maps use a shorthand to represent pressure. Fig 2-1-1 Weather: A Concise Introduction 38

Weather Station Model If reported value greater than 500: Initial 9 is missing. Place it on left, then divide by 10. For example: 827 becomes 982.7 mb. Fig 2-1-1 Weather: A Concise Introduction 39 Weather Station Model If reported value less than 500: Initial 10 is missing. Place it on left, then divide by 10. For example: 027 becomes 1002.7 mb. Fig 2-1-1 Weather: A Concise Introduction 40

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