Large Scale Weather

1. Large Scale Weather SCI 201

2. Driving Questions • How does sunlight hit the Earth and how does this result in seasons? • What are the various air masses on Earth and how do they form? • What is the Coriolis Force and how does it affect the motion of objects in the Northern and Southern Hemispheres? • What causes the jet streams and how do they influence weather? • How are regions of high and low pressure created on the Earth and what weather is generally associated with each? • How do winds associated with areas of high and low pressure move? • What are fronts and how are they associated with precipitation?

3. The Sun and the Earth • Seasons • Area of sunlight • Resulting air masses

4. Air Masses

5. Jet Stream • Interaction of the large air masses (high altitude) • Coriolis force (drawing activity - NH/SH) • Pressure above the poles and equator • More molecules above equator • Less molecules above the poles • Pressure gradient force • Cancellation and the resulting jet stream • Polar - higher winds (due to distance and T) • subtropical • In US, systems follow a general W to E pattern (*) • Usually shown P.J.S. • Cold snaps/warming trends • winter vs. summer

6. Highs/Lows and Precipitation • High pressure in areas where air is sinking • Pushes on air below it results in higher P • Can be high/low T, but few clouds (think cloud in a bottle) • Low pressure in areas where air is rising • Opposite effect • If lots of water vapor, clouds can form, rain/snow as it rises and cools off • Rain/Snow showers and clouds around Lows

7. Highs/Lows and Winds • At high altitudes • In a circle to the left around lows • In a circle to the right around highs • Nearer the Earth’s surface • Spiral inward around lows • Spiral outward around highs • Blowing winds suggest a change from a high to low pressure area

8. So far… • High and low P areas move across the Earth • They take winds that circulate around those areas with them • Large scale, cover large portions of the US • Within and between are smaller regions of cold air, warm air, dry air, humid air, and combos

9. Fronts • Pan demo • Small scale areas come into contact • Cold front - cold air overtakes warm air • Warm front - warm air overtakes cold air • Stationary front - neither displaces the other

10. storms • Depends on DT between cold and warm air and humidity of cold and warm air • If warm air is humid - clouds and possibly rain and snow • When cold air overtakes warm air, warm air rises rapidly and cools rapidly, big thunderstorms and snowfalls • When warm air overtakes cold air, the rising is more gradual, leads to steady, longlasting precipitation

11. Driving Questions • How does sunlight hit the Earth and how does this result in seasons? • What are the various air masses on Earth and how do they form? • What is the Coriolis Force and how does it affect the motion of objects in the Northern and Southern Hemispheres? • What causes the jet streams and how do they influence weather? • How are regions of high and low pressure created on the Earth and what weather is generally associated with each? • How do winds associated with areas of high and low pressure move? • What are fronts and how are they associated with precipitation?