Understanding Air Pressure

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Presentation transcript:

Understanding Air Pressure Chapter 19, Section 1

Air Pressure Defined Air pressure is simply the pressure exerted by the weight of air above Average air pressure at sea level is about 1 kilogram per square centimeter (the same as produced by a column of water 10 meters in height) Air pressure is exerted in all directions—down, up, and sideways The air pressure pushing down on an object exactly balances the air pressure pushing up on the object

Concept Check What is average air pressure at sea level? Average air pressure at sea level is about 1 kilogram per square centimeter.

Measuring Air Pressure When meteorologists measure atmospheric pressure, they use a unit called the millibar (standard sea-level pressure is 1013.2 millibars) Barometer – device used for measuring air pressure The weight of mercury in the column (tube) equals the weight of the same size column of air that extends from the ground to the top of the atmosphere When air pressure increases, the mercury in the tube rises; when air pressure decreases, so does the height of the mercury column Scientists will often use the more portable aneroid barometer to record changes over time of air pressure

Mercury Barometer and Aneroid Barometer

Concept Check Suppose the height of a column in a mercury barometer is decreasing. What is happening? Air pressure is decreasing.

Factors Affecting Wind Wind is the result of horizontal differences in air pressure Air flows from areas of higher pressure to areas of lower pressure Wind is nature’s way of balancing out pressure inequalities The unequal heating of Earth’s surface generates pressure differences Solar radiation is the ultimate energy source for most wind If Earth did not rotate, and if there were no friction between moving air and Earth’s surface, air would flow in a straight line from high to low pressure areas Three factors combine to control wind: pressure differences, the Coriolis effect, and friction

Concept Check What is the ultimate source for most wind? The sun.

Pressure Differences Wind is created from differences in pressure—the greater these differences are, the greater the wind speed is Over Earth’s surface, variations in air pressure are determined from barometric readings taken at hundreds of weather stations Pressure Gradient – the amount of pressure change occurring over a given distance Equal pressures are connected on a map using isobars Closely spaced isobars indicate a steep pressure gradient and high winds Widely spaced isobars indicate a weak pressure gradient and light winds The pressure gradient is the driving force of wind

Isobars

Coriolis Effect Coriolis Effect – the apparent deflective force of earth’s rotation on all free-moving objects The Coriolis effect describes how Earth’s rotation affects moving objects All free-moving objects or fluids, including the wind, are deflected to the right of their path in the Northern Hemisphere; in the Southern Hemisphere, they are deflected to the left This deflection: 1) is always directed at right angles to the direction of airflow; 2) affects only wind direction and not wind speed; 3) is affected by wind speed—the stronger the wind, the greater the deflection; and 4) is strongest at the poles and weakens toward the equator, becoming nonexistent at the equator

Coriolis Effect

Concept Check How does the Coriolis effect influence motion of free-moving objects? The Coriolis effect deflects free-moving objects to the right (in the Northern Hemisphere) or to the left (in the Southern Hemisphere).

Friction The effect of friction on wind is important only within a few kilometers of Earth’s surface Friction acts to slow air movement, which changes wind direction When air is above the friction layer, the pressure gradient causes air to move across isobars The most prominent features of airflow above the friction layer are jet streams Jet Streams – fast-moving rivers of air that travel between 120 to 240 kilometers per hour in a west-to-east direction The roughness of the terrain determines the angle of airflow across the isobars; the smoother the terrain, the smaller the angle of airflow Slower wind speeds caused by friction decrease the Coriolis effect

Friction

Assignment Read Chapter 19, Section 1 (pg. 532-536) Do Chapter 19 Assessment #1-29 (pg. 553-554) For Section 1: #’s 1, 2, 8, 9, 11-13, 22, 28