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Global Circulation and Winds (Stewart Cap. 4)

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Presentation on theme: "Global Circulation and Winds (Stewart Cap. 4)"— Presentation transcript:

1 Global Circulation and Winds (Stewart Cap. 4)

2 Outline Atmospheric pressure Winds Global circulation patterns
Ocean circulation patterns

3 1. Atmospheric Pressure

4 Atmospheric Pressure Density of the atmosphere decreases with altitude
Earth

5 Atmospheric Pressure:
Force exerted by the atmospheric per unit area

6 Measuring Atmospheric Pressure
At sea level: 101,320 Pascals (101 kPa) millibars 76 cm Hg (30 in Hg)

7 Atmospheric Pressure

8 Atmospheric Pressure Isobar map

9 Differences in atmospheric pressure cause air to move …
820 830 840 850 860 820 830 840 850 860 870 880 890 weak pressure gradient strong pressure gradient

10 Winds are named for the direction they originate from

11 Local winds Land – sea breezes Daytime: sea breeze
Night time: land breeze

12 3. Global circulation patterns

13 Cold High Pressure Solar radiation creates variation in heating / atmospheric pressure 0o 30oN 60oN 30oS 60oS 90oN SUN Warm Low Pressure Earth

14 L Warm air rises at equator and flows towards the poles 90oN 60oN 30oN
30oS 60oS 90oN L

15 H L H Cold air sinks at 30o N and S latitude creating high pressure
30oS 60oS 90oN H L H

16 Low pressure at 0o , 60o latitude high pressure at 30o , 90o latitude
Doldrums: strong vertical uplift, little horizontal wind Hadley cells: well developed low pressure cells in the tropics

17 H 0o 30oN 60oN 30oS 60oS 90oN L Pressure gradients influence development of global wind patterns H L H L H

18 H L H Easterly winds (trade winds) Westerly winds Easterly winds 90oN
30oS 60oS 90oN Easterly winds Westerly winds H Easterly winds (trade winds) L H

19 4. Ocean circulation patterns

20 Ocean currents large continuously moving loops (gyres)
produced by winds, Coriolis effect and land masses

21 Ocean circulation exposes east coasts of continents to warm currents, west coasts to cold currents

22 Ocean upwelling

23 Summary Variation in heating causes variation in atmospheric pressure conditions Variation in atmospheric pressure causes air to move (H  L) Local-scale wind patterns occur with variation in heating, pressure

24 Summary (continued) Direction of air movement affected by pressure gradient, Coriolis effect, and friction In No. Hemisphere L pressure systems (cyclones) circulate counterclockwise in, H pressures systems (anticyclones) circulate clockwise out

25 Summary (continued) Global variation in heating produces L pressure at 0o and 60o, H pressure at 30o and 90o H and L pressure systems drive global wind patterns (easterlies between 30o N and 30o S; westerlies between 30-60o N and S)

26 Summary (continued) Ocean currents influenced by winds, Coriolis effect and land masses Ocean circulation exposes east coasts of continents to warm currents, west coasts to cold currents

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