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101 Pressure

Learn about atmospheric pressure, its importance, and how it is measured using different types of barometers. Explore pressure units and their relevance in meteorology. Discover how pressure changes with elevation and its impact on weather conditions.

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101 Pressure

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  1. 101 Pressure

  2. What is atmospheric pressure?Where measured?Why important?

  3. When T> 0K, atoms and molecules are moving • When they hit an object they provide a small push and apply a small force to the object

  4. Convenient to talk in terms of pressure rather than forces Pressure = force area P= F A

  5. Pressure is isotropic (independent of direction)

  6. Atmospheric pressure is due to the weight of the atmosphere above the point in question So, is there atmospheric pressure under a table? ?

  7. What about a tank of water with a hole in the side? Lower p Higher p

  8. Pressure • Units of force per unit area • E.g., pounds (lb) per square inch, newtons (N) per square meter. • So, a 150 lb man standing on shoes with an area of 30 in2 puts a pressure on the floor of P= 150 lb/(30 in2) = 5 lb in-2

  9. How to use pressure concepts to avoid this

  10. Ski Example • Two cross country skis, each 125 in2 • Total area 250 in2, 150 lb skier • P=F/A= 150lb/250 in2 or 3/5 lb in2 • Less pressure! Doesn’t fall in.

  11. Collapsing Can Demo

  12. Collapsing BarrelCollapsing Tanker Car

  13. Atmospheric pressure at any point is dependent of the weight of air above that point P= F/A = W/A W= weight of air in the column above the point

  14. Pressure decreases with height because there is less air above, so less weight P3 P2 P1 P1 > P2 > P3

  15. Pressure Does NOT Decrease at the Same Rate with ElevationFalls off more quickly near the surface

  16. Why? Because the atmosphere is compressible and the density of air molecules is greater near the surface

  17. How does this fit with our discussion of pressure caused by the forces of molecules impacting on a surface? • Near the surface, there is more density, so more molecules are available to impact a surface • The temperature is also warmer near the surface, so they are going faster.

  18. How do we measure pressures? With barometers. Three types • Mercury • Aneroid • Electronic pressure sensor

  19. Mercury • Invented by Evangelista Torricelli, a student of Galileo, around 1645 AD • To make one you need a long tube around 40 inches long filled with mercury, and a dish of mercury

  20. Mercury Barometer Why doesn’t the mercury all flow out of the tube? Atmospheric pressure

  21. Mercury Barometer • If atmospheric pressure increases, the height of the column of mercury increases, and vice versa • How high? At sea level, on average about 29.92 inches or 76 cm (one inch=2.54 cm) • So when a TV weatherperson says the pressure is 30.06 inches…that is how tall a mercury column atmospheric pressure can support

  22. Why not use water in a barometer?

  23. It would have to be roughly 30 ft tall! • Water is much less dense than mercury, so would need a much higher barometer. • Related question: what is the size of the largest straw that would work?

  24. Straws use atmospheric pressure to work, thus the straw can’t be more than 30 ft long

  25. Aneroid Barometer

  26. No mercury, pressure changes the thickness of an air tight chamber/diaphragm

  27. Barograph—another form of aneroid barometer

  28. barogram

  29. Altimeter: Aneroid Barometer Inside

  30. Solid State Pressure Sensor

  31. Smartphone Pressure Sensor

  32. Pressure Units • Remember P= F/A, so inches of mercury are not really units of pressure. • Needs to force per unit area • English units: lbs per square inch (psi). Average sea level pressure is 14.7 lbs per inch2 . Car tires, 30-35 psi. Bicycles 35-80 psi • Meteorologists DON’T USE psi

  33. Pressure Units • Metric units. Newton per meter squared (N/m2). 1 Nm-2 is called a Pascal. • Newton is the unit of force in the metric system. • Meteorologists love to use hectopascals (hPa). hPa is 100 Nm-2 or 100 Pascals • Another favorite is millibar (mb), which is another names for hectopascals.

  34. Sea Level is considered zero elevation in meteorology • Mean sea level pressure=1013.25 hPa= 1013.25 millibars (mb) =14.7 lbs in-2 • Same as 29.92 inches of mercury or 76 cm of mercury or 760 mm of mercury • Meteorologists generally use hPa or mb

  35. Surface weather maps plot sea level pressure-–the pressure at mean sea level (hPa/mb)

  36. Pressure often used instead of height in meteorology • Instead of using physical height (in meters or feet), meteorologists often use pressure instead • Pressure decreases with height • 1013 hPa ~ 0 ft, 0 km ASL • 850 hPa ~5000 ft, 1.5 km ASL • 500 hPa ~18,000 ft, 5.5 km ASL • 250 hPa ~34,000 ft, 10.5 km ASL

  37. Pressures • Snoqualmie Pass ~ 900 hPa • Top of Mount Rainier ~ 600 hPa • Highest human settlement ~ 530 hPa • Jet cruising altitude ~ 230 hPa (35K ft) • An altimeter is a device that uses pressure change to give elevation. Many smartphones have altimeter software using the on-board pressure sensor.

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