1 / 18

Pressure Systems

Pressure Systems. What is air pressure?. It is caused by the weight of all the air in the atmosphere pushing down on Earth. It is also known as atmospheric pressure. Air pressure changes with the height and also when air warms up or cools down.

selene
Download Presentation

Pressure Systems

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Pressure Systems

  2. What is air pressure? • It is caused by the weight of all the air in the atmosphere pushing down on Earth. • It is also known as atmospheric pressure. • Air pressure changes with the height and also when air warms up or cools down. • Changes in air pressure cause changes in weather.

  3. Differences in air pressure • Low Pressure • When air rises, it leaves behind an area of lower pressure, because the upward-moving air is not pressing down so hard on the surface.

  4. Differences in air pressure • High Pressure • Areas of high pressure are formed where air is sinking back down, and so pushing down harder.

  5. Differences in air pressure

  6. Differences in air pressure • Since there are many areas of high and low pressure above the Earth’s surface due to uneven surface heating: • Air moves from high pressure to low pressure forming winds. • As a result, the greater the difference between high pressure and low pressure areas, the greater the wind speed is.

  7. Highs and Lows • Pressure is different all over the world. • Lows are areas of low pressure with the lowest pressure at the center. • Lows usually bring wet, cloudy weather.

  8. Highs are areas of high pressure with the highest pressure at the center. • Highs bring dry, sunnier weather. • The ways that these pressures change from day to day affects the weather changes.

  9. Measuring Air Pressure • Air pressure is measured in millibars (mb) on a barometer. • The simplest kind of barometer is a mercury barometer and pressure is measured in (inches) of mercury

  10. Pressure • Air exerts a pressure although we are not aware of it. • Pressure is a force, or weight, exerted on a surface per unit area and is measured in Pascals (Pa) • Atmospheric pressure is measured using a barometer • These usually measure in millibars (mb) • 1 mb= 100 Pa

  11. Pressure • A mercury barometer measures the pressure by noting the length of mercury which is supported by the weight of the atmosphere. • 1 cm of mercury is equal to 13.33 mb • An aneroid barometer is a more compact way to measure atmospheric pressure.

  12. Pressure • Air blows from areas of high pressure to regions of low atmospheric pressure. • A pressure system is a region of the Earth’s atmosphere where air pressure is unusually high or low. • High and low pressure systems form (and die) constantly due to thermodynamic interactions of the atmosphere and water

  13. High Pressure Systems • In a high-pressure system, air pressure is greater than the surrounding areas. • This difference in air pressure results in wind or moving air. • In a high pressure area, air is denser than in areas of lower pressure. • The result is that air will move from the high-pressure area to an area of lower density, or lower pressure

  14. High Pressure Systems • High pressure systems are associated with clear, cool weather • Around high pressure systems, winds flow clockwise in the northern hemisphere and counterclockwise in the southern hemisphere. • Air moving from high pressure to low pressure follows a spiraling route due to the rotation of the Earth beneath the moving air.

  15. Low Pressure Systems • Receives winds from high pressure systems. • As winds blow in, the air can be uplifted • The components of storms are attracted to regions of low pressure • For this reason, heavy precipitation and overcast conditions are often associated with low-pressure systems.

  16. Pressure Systems on Maps • On weather maps, low-pressure systems are shown with a capital L, unless they are tropical storms or tropical cyclones • In these cases, the symbols for the weather conditions would be used. • High-pressure systems are shown with an H

  17. Pressure Systems on Maps • Isobar Maps • Show where pressures are relatively high and low and show gradual or dramatic changes in pressure over a distance. • Isobar • A line that connects locations at equal pressure

More Related