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Atmospheric Forces and Winds. Atmospheric pressure Measuring air pressure Surface and upper-air charts Why the wind blows Surface winds. Atmospheric Pressure. Atmospheric Pressure. air pressure - definition air pressure and temperature pressure gradient force.
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Atmospheric Forces and Winds • Atmospheric pressure • Measuring air pressure • Surface and upper-air charts • Why the wind blows • Surface winds
Atmospheric Pressure • air pressure - definition • air pressure and temperature • pressure gradient force • Air pressure is, quite literally, the weight of the atmosphereabove us.
Stepped Art Fig. 6-2, p. 143
Barometers • mercury barometer • aneroid barometer • altimeter • barograph
Pressure Readings • station pressure and sea-level pressure • isobars
Surface and Upper Air Charts • isobaric maps • contour lines • ridges • troughs • Color-filled contour maps are the same as ordinarycontour maps, except that the area between adjacentlines is filled in with color.
Newton’s Laws of Motion • Newton’s first law: “An object at rest will remain at rest and an obect in motion will move in a straight line at constant speed unless acted on by an unbalanced force.” • Newton’s second law: • Newton’s third law: “Every action has an equal and opposite reaction.”
Forces that Influence the Wind • net force and fluid movement • Wind is the result of a balance of several forces.
Pressure Gradient Force • pressure gradient • pressure gradient force • strength and direction of the pressure gradient force • The horizontal (rather than the vertical) pressure gradient force is responsible for causing air to move horizontally.
Coriolis Force • real and apparent forces • Coriolis force • strength and direction of the Coriolis force • factors that affect the Coriolis force • It is sometimes claimed that “water swirls down a bathtub drain in opposite directions in the northern and southern hemispheres”. This is not true.
Straight-line Flow Aloft • combination of the pressure gradient and Coriolis forces • geostrophic wind • Geostrophic winds can be observed by watching the movement of clouds.
Curved Winds Around Lows and Highs Aloft • cyclonic and anticyclonic flow • centripetal force • gradient wind
Winds on Upper-level Charts • gradients in contour lines • meridional and zonal winds • Height contours on upper-level charts are interpreted in the same way as isobars on surface charts.
Stepped Art Fig. 6-19, p. 158
Surface Winds • planetary boundary layer • friction • frictional effects on the wind • Most people rarely venture out of the planetary boundary layer.
Winds and Vertical Motions • divergence and convergence • hydrostatic equilibrium
Summary of Atmospheric Forces • “True” forces: • Gravity • Pressure Gradient • Friction • “Ficticious” forces: • Coriolis force • Centrifugal force
Summary of Atmospheric Force Balances • Vertical: • Hydrostatic Balance • Horizontal: • Geostrophic Balanice • Gradient Balance • Ekman Balance • (see Table 6-1 in Ackerman and Knox)
Atmospheric Circulations • Scales of atmospheric motions • Eddies - big and small • Local wind systems • Global winds • Global wind patterns and the oceans
Scales of Atmospheric Motions • scales of motion • microscale • synoptic scale • planetary scale • Lots of important weather events occur on microscales, like evaporation of liquid water molecules from the earth’s surface.
Eddies - Big and Small • eddy • rotor • wind shear • turbulence • Wind shear can sometimes be observed by watching themovement of clouds at different altitudes.
Thermal Circulations • isobars and density differences • thermal circulations
Stepped Art Fig. 7-4, p. 172
Sea and Land Breezes • sea breeze • land breeze • Sea and land breezes also occur near the shores of large lakes, such as the Great Lakes.
Stepped Art Fig. 7-5, p. 174
Seasonally Changing Winds - the Monsoon • Monsoon wind system • Asian monsoon • other monsoons
Mountain and Valley Breezes • valley breeze • mountain breeze • The nighttime mountain breeze is sometimes calledgravity winds or drainage winds, because gravitycauses the cold air to ‘drain’ downhill.
Katabatic Winds • drainage winds • bora • Katabatic winds are quite fierce in parts of Antarctica, with hurricane-force wind speeds.
Chinook Winds • Chinook winds • compressional heating • chinook wall cloud • In Boulder, Colorado, along the eastern flank of the Rocky Mountains, chinook winds are so common thatmany houses have sliding wooden shutters to protecttheir windows from windblown debris.
Santa Ana Winds • Santa Ana wind • compressional heating • wildfires • Many Southern California residents regularly hose downtheir roofs to prevent fires during Santa Ana wind season.
Desert Winds • dust storms • dust devils
General Circulation of the Atmosphere • cause: unequal heating of the earth’s surface • effect: atmospheric heat transport • Ocean currents also transport heat from the equator tothe poles and back.
Single-cell Model • basic assumptions • Hadley cell • why the single-cell model is wrong • One of the world’s premier atmospheric science research facilities,the Hadley Centre for Climate Research, is named after George Hadley.
Three-cell Model • model for a rotating earth • Hadley cell • doldrums • subtropical highs • trade winds • intertropical convergence zone • westerlies • polar front • polar easterlies • Many global circulation terms,including ‘trade winds’ and ‘doldrums’, were named by mariners who were well acquaintedwith wind patterns.
Average Surface Winds and Pressure: The Real World • semipermanent highs and lows • Bermuda high & Pacific high • Icelandic low & Aleutian low • Siberian high • The Bermuda High frequently brings hot, muggy weather to the eastern US.