Class #12: Friday, September 25

1. Class #12: Friday, September 25 Chapter 6 Forces and Force Balances Class #12 Friday, September 25

2. The horizontal pressure gradient force • Is always directed from high to low pressure • Is stronger where the density is less—higher in the troposphere • When stronger, causes stronger winds • Is always important in horizontal winds • Is not generally in the same direction the wind blows, because other forces can act Class #12 Friday, September 25

3. The HPGF always acts from high to low pressure Class #12 Friday, September 25

4. The Coriolis Force • Deflects the wind to the right in the NH • Deflects the wind to the left in the SH • Is strongest at the poles • Is zero at the equator • Is stronger for stronger winds • Is weaker for weaker winds • Is zero for calm. It cannot start a wind Class #12 Friday, September 25

5. The earth rotates fastest at the equator Class #12 Friday, September 25

6. Coriolis force deflects the wind Class #12 Friday, September 25

7. The Coriolis force is stronger: towards the poles, stronger winds Class #12 Friday, September 25

8. The Friction Force • Acts in the direction opposite to the direction the wind is blowing. • Acts to slow down the wind. • Is most important at Earth’s surface • Gets stronger when the winds are stronger. • Is not important above the boundary layer (the lowest 1 km in the atmosphere). . Class #12 Friday, September 25

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10. Force Balances with the Coriolis force Class #12 Friday, September 25

11. Why Force-Balances are important • Force-balances simplify Newton’s second law of motion by limiting the number of forces. • Force-balances describe winds that come close to describing the observed winds. • Even though the forces are balanced, the wind need not be calm. Class #12 Friday, September 25

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13. Hydrostatic Balance • Gravity (downward) balances the Vertical Pressure Gradient Force (upward). • Does not apply inside cumulus clouds, because buoyancy is important there. • Does apply generally in the atmosphere. • Limits vertical motions to be much weaker than horizontal winds. Class #12 Friday, September 25

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15. More on Hydrostatic Balance • The pressure gradient force is stronger when the air is less dense. • The density of air is less when the air Temperature is higher. • Pressure decreases upward less rapidly when the air has a higher temperature • Hydrostatic balance helps explain the sea breeze and other thermal circulations. Class #12 Friday, September 25

16. Pressure levels on weather maps • The atmosphere is very close to hydrostatic balance. • This means that the height of a particular pressure level is roughly equivalent to the pressure at a related height level. • An altimeter is a barometer with a height scale. • Upper-level weather maps are labeled in m. Class #12 Friday, September 25

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18. Geostrophic balance • Is a balance between the horizontal pressure gradient force and the Coriolis force. • Ignores the friction force. • Has isobars that are straight lines. • Does not mean that the wind is calm. • Has a wind called the geostrophic wind. • Is not a feature of everyday life. Class #12 Friday, September 25

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20. The Geostrophic Wind • Is a straight horizontal wind (no curves) • Is parallel to the isobars • In the NH has low pressure on the left • In the SH has low pressure on the right. • In the NH the wind blows clockwise around high pressure centers and counterclockwise around low pressure centers. Class #12 Friday, September 25

21. Class #12 Friday, September 25