Project ATMOSPHERE Highs And Lows.

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Presentation transcript:

Project ATMOSPHERE Highs And Lows

High

Low

1. Moving in the direction towards the center of a High, the surface atmospheric pressure (increases, decreases). When moving towards the center of a Low, the surface atmospheric pressure (increases, decreases).

1. Moving in the direction towards the center of a High, the surface atmospheric pressure (increases, decreases). When moving towards the center of a Low, the surface atmospheric pressure (increases, decreases).

1. Moving in the direction towards the center of a High, the surface atmospheric pressure (increases, decreases). When moving towards the center of a Low, the surface atmospheric pressure (increases, decreases).

2. Which of the following best describes the surface wind circulation around the center of a High pressure system (as seen from above)? a) counterclockwise and spiraling outward b) counterclockwise and spiraling inward c) clockwise and spiraling outward d) clockwise and spiraling inward

2. Which of the following best describes the surface wind circulation around the center of a High pressure system (as seen from above)? a) counterclockwise and spiraling outward b) counterclockwise and spiraling inward c) clockwise and spiraling outward d) clockwise and spiraling inward

3. Which of the following best describes the surface wind circulation around the center of a Low pressure system (as seen from above)? a) counterclockwise and spiraling outward b) counterclockwise and spiraling inward c) clockwise and spiraling outward d) clockwise and spiraling inward

3. Which of the following best describes the surface wind circulation around the center of a Low pressure system (as seen from above)? a) counterclockwise and spiraling outward b) counterclockwise and spiraling inward c) clockwise and spiraling outward d) clockwise and spiraling inward

4. On your desk, repeat the hand twists for the High and Low pressure system models. Note the vertical motions of the palm of your hand. For the High, the palm of your hand (rises, falls) during the rotating motion, whereas for the Low, the palm of your hand (rises, falls) during the rotating motion.

4. On your desk, repeat the hand twists for the High and Low pressure system models. Note the vertical motions of the palm of your hand. For the High, the palm of your hand (rises, falls) during the rotating motion, whereas for the Low, the palm of your hand (rises, falls) during the rotating motion. ▼ ▼ ▼ ▼ ▼ ▼ ▼ ▼ ▼ ▼

4. On your desk, repeat the hand twists for the High and Low pressure system models. Note the vertical motions of the palm of your hand. For the High, the palm of your hand (rises, falls) during the rotating motion, whereas for the Low, the palm of your hand (rises, falls) during the rotating motion.

4. On your desk, repeat the hand twists for the High and Low pressure system models. Note the vertical motions of the palm of your hand. For the High, the palm of your hand (rises, falls) during the rotating motion, whereas for the Low, the palm of your hand (rises, falls) during the rotating motion. ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲ ▲

5. The motions of your palms during these rotations represent the directions of vertical air motions in Highs and Lows. Vertical motions in a High are (upward, downward) while vertical motions in a Low are (upward, downward).

5. The motions of your palms during these rotations represent the directions of vertical air motions in Highs and Lows. Vertical motions in a High are (upward, downward) while vertical motions in a Low are (upward, downward).

5. The motions of your palms during these rotations represent the directions of vertical air motions in Highs and Lows. Vertical motions in a High are (upward, downward) while vertical motions in a Low are (upward, downward). Note that horizontal surface winds in a High and Low are considerably stronger than vertical air motions.

6. In a High pressure system, air flows a) downward and outward in a clockwise spiral. b) downward and inward in a counter-clockwise spiral. c) upward and outward in a clockwise spiral. d) upward and inward in a counter-clockwise spiral.

6. In a High pressure system, air flows a) downward and outward in a clockwise spiral. b) downward and inward in a counter-clockwise spiral. c) upward and outward in a clockwise spiral. d) upward and inward in a counter-clockwise spiral.

7. In a Low pressure system, air flows a) downward and outward in a clockwise spiral. b) downward and inward in a counter-clockwise spiral. c) upward and outward in a clockwise spiral. d) upward and inward in a counter-clockwise spiral.

7. In a Low pressure system, air flows a) downward and outward in a clockwise spiral. b) downward and inward in a counter-clockwise spiral. c) upward and outward in a clockwise spiral. d) upward and inward in a counter-clockwise spiral.

8. The weather associated with a Low can be significantly different than that of a High. Different vertical motions account for some of these differences. Vertical motions lead to temperature changes in the rising or sinking air. The temperature changes occur because air warms when it is compressed and cools when it expands. (That is why a bicycle pump heats up as it compresses air and why air coming out of a tire valve cools as it expands while rushing from the higher pressures in the tire into the lower pressure of the atmosphere.) In the open atmosphere, air pressure decreases with increasing altitude. Consequently, air expands and cools when (ascending, descending). Air is compressed and warms when (ascending, descending).

8. The weather associated with a Low can be significantly different than that of a High. Different vertical motions account for some of these differences. Vertical motions lead to temperature changes in the rising or sinking air. The temperature changes occur because air warms when it is compressed and cools when it expands. (That is why a bicycle pump heats up as it compresses air and why air coming out of a tire valve cools as it expands while rushing from the higher pressures in the tire into the lower pressure of the atmosphere.) In the open atmosphere, air pressure decreases with increasing altitude. Consequently, air expands and cools when (ascending, descending). Air is compressed and warms when (ascending, descending).

8. The weather associated with a Low can be significantly different than that of a High. Different vertical motions account for some of these differences. Vertical motions lead to temperature changes in the rising or sinking air. The temperature changes occur because air warms when it is compressed and cools when it expands. (That is why a bicycle pump heats up as it compresses air and why air coming out of a tire valve cools as it expands while rushing from the higher pressures in the tire into the lower pressure of the atmosphere.) In the open atmosphere, air pressure decreases with increasing altitude. Consequently, air expands and cools when (ascending, descending). Air is compressed and warms when (ascending, descending).

9. In a Low, air generally exhibits ascending motion 9. In a Low, air generally exhibits ascending motion. The rising air experiences (increasing, decreasing) atmospheric pressure. The ascending air (expands, is compressed) and its temperature (increases, decreases).

9. In a Low, air generally exhibits ascending motion 9. In a Low, air generally exhibits ascending motion. The rising air experiences (increasing, decreasing) atmospheric pressure. The ascending air (expands, is compressed) and its temperature (increases, decreases).

9. In a Low, air generally exhibits ascending motion 9. In a Low, air generally exhibits ascending motion. The rising air experiences (increasing, decreasing) atmospheric pressure. The ascending air (expands, is compressed) and its temperature (increases, decreases).

9. In a Low, air generally exhibits ascending motion 9. In a Low, air generally exhibits ascending motion. The rising air experiences (increasing, decreasing) atmospheric pressure. The ascending air (expands, is compressed) and its temperature (increases, decreases).

10. In a High, air displays descending motion 10. In a High, air displays descending motion. The sinking air experiences (increasing, decreasing) atmospheric pressure. Consequently, the descending air (expands, is compressed) and its temperature (increases, decreases).

10. In a High, air displays descending motion 10. In a High, air displays descending motion. The sinking air experiences (increasing, decreasing) atmospheric pressure. Consequently, the descending air (expands, is compressed) and its temperature (increases, decreases).

10. In a High, air displays descending motion 10. In a High, air displays descending motion. The sinking air experiences (increasing, decreasing) atmospheric pressure. Consequently, the descending air (expands, is compressed) and its temperature (increases, decreases).

10. In a High, air displays descending motion 10. In a High, air displays descending motion. The sinking air experiences (increasing, decreasing) atmospheric pressure. Consequently, the descending air (expands, is compressed) and its temperature (increases, decreases).

11. Most clouds form by the cooling of air 11. Most clouds form by the cooling of air. Air, if sufficiently cooled, will become saturated with water vapor. Continued cooling will result in condensation, cloud formation, and possible precipitation. The vertical motion in a (High, Low) often leads to cloud formation.

11. Most clouds form by the cooling of air 11. Most clouds form by the cooling of air. Air, if sufficiently cooled, will become saturated with water vapor. Continued cooling will result in condensation, cloud formation, and possible precipitation. The vertical motion in a (High, Low) often leads to cloud formation.

12. Warming causes clouds to evaporate 12. Warming causes clouds to evaporate. Cloudy air is saturated with water vapor. With sufficient warming, it will become unsaturated and existing cloud particles (water droplets or ice crystals) will evaporate. The vertical motions in a (High, Low) produce warming, promote cloud dissipation, and lead to clear skies.

12. Warming causes clouds to evaporate 12. Warming causes clouds to evaporate. Cloudy air is saturated with water vapor. With sufficient warming, it will become unsaturated and existing cloud particles (water droplets or ice crystals) will evaporate. The vertical motions in a (High, Low) produce warming, promote cloud dissipation, and lead to clear skies.

13. Descending air in a High leads to (fair, stormy) weather and ascending air in a Low tends to make weather (fair, stormy).

13. Descending air in a High leads to (fair, stormy) weather and ascending air in a Low tends to make weather (fair, stormy).

13. Descending air in a High leads to (fair, stormy) weather and ascending air in a Low tends to make weather (fair, stormy).

14. The broad horizontal expanses of Highs and Lows cover large geographical areas such that their circulations transport colder air from higher latitudes and warmer air from lower latitudes. Consequently, in a High, air to the east of the system's center is generally (colder, warmer) than air to the west.

14. The broad horizontal expanses of Highs and Lows cover large geographical areas such that their circulations transport colder air from higher latitudes and warmer air from lower latitudes. Consequently, in a High, air to the east of the system's center is generally (colder, warmer) than air to the west.

15. In a Low, air to the east of the system's center is generally (colder, warmer) than air to the west.

15. In a Low, air to the east of the system's center is generally (colder, warmer) than air to the west.

16. Turn to Figure 1: HIGH, examine the model High you constructed on the map. The hand-twist model of a High indicates the sky is probably (clear, cloudy) at St. Louis.

16. Turn to Figure 1: HIGH, examine the model High you constructed on the map. The hand-twist model of a High indicates the sky is probably (clear, cloudy) at St. Louis.

17. Surface winds at Topeka are probably from the general direction of (north, south), and temperatures are (higher, lower) than those in Cincinnati.

17. Surface winds at Topeka are probably from the general direction of (north, south), and temperatures are (higher, lower) than those in Cincinnati.

17. Surface winds at Topeka are probably from the general direction of (north, south), and temperatures are (higher, lower) than those in Cincinnati.

18. The center of the High is forecast to be near Cincinnati tomorrow 18. The center of the High is forecast to be near Cincinnati tomorrow. The weather at St. Louis tomorrow will probably be most like the weather in (Cincinnati, Topeka, Birmingham) today.

18. The center of the High is forecast to be near Cincinnati tomorrow 18. The center of the High is forecast to be near Cincinnati tomorrow. The weather at St. Louis tomorrow will probably be most like the weather in (Cincinnati, Topeka, Birmingham) today.

19. Turn to Figure 2: LOW, examine the model Low you constructed on the map. The hand-twist model of a Low indicates that the sky is probably (clear, cloudy) at St. Louis.

19. Turn to Figure 2: LOW, examine the model Low you constructed on the map. The hand-twist model of a Low indicates that the sky is probably (clear, cloudy) at St. Louis.

20. Surface winds at Topeka are probably from the general direction of (north, south), and temperatures are (higher, lower) than those in Cincinnati.

20. Surface winds at Topeka are probably from the general direction of (north, south), and temperatures are (higher, lower) than those in Cincinnati.

20. Surface winds at Topeka are probably from the general direction of (north, south), and temperatures are (higher, lower) than those in Cincinnati.

21. Summary HIGH LOW Pressure Change Towards Center (increase, decrease) Surface Winds Around Center (clockwise, counterclockwise) Surface Winds Around Center (inward, outward) Vertical Motion (up, down) Change in Temperature of Vertically Moving Air (increases, decreases) State of the Sky Around Center (clear, cloudy) General Weather (fair, stormy)

HIGH LOW Pressure Change Towards Center (increase, decrease) incr decr Surface Winds Around Center (clockwise, counterclockwise) Surface Winds Around Center (inward, outward) Vertical Motion (up, down) Change in Temperature of Vertically Moving Air (increases, decreases) State of the Sky Around Center (clear, cloudy) General Weather (fair, stormy)

HIGH LOW Pressure Change Towards Center (increase, decrease) incr decr Surface Winds Around Center (clockwise, counterclockwise) CW CCW Surface Winds Around Center (inward, outward) Vertical Motion (up, down) Change in Temperature of Vertically Moving Air (increases, decreases) State of the Sky Around Center (clear, cloudy) General Weather (fair, stormy)

HIGH LOW Pressure Change Towards Center (increase, decrease) incr decr Surface Winds Around Center (clockwise, counterclockwise) CW CCW Surface Winds Around Center (inward, outward) out in Vertical Motion (up, down) Change in Temperature of Vertically Moving Air (increases, decreases) State of the Sky Around Center (clear, cloudy) General Weather (fair, stormy)

HIGH LOW Pressure Change Towards Center (increase, decrease) incr decr Surface Winds Around Center (clockwise, counterclockwise) CW CCW Surface Winds Around Center (inward, outward) out in Vertical Motion (up, down) down up Change in Temperature of Vertically Moving Air (increases, decreases) State of the Sky Around Center (clear, cloudy) General Weather (fair, stormy)

HIGH LOW Pressure Change Towards Center (increase, decrease) incr decr Surface Winds Around Center (clockwise, counterclockwise) CW CCW Surface Winds Around Center (inward, outward) out in Vertical Motion (up, down) down up Change in Temperature of Vertically Moving Air (increases, decreases) State of the Sky Around Center (clear, cloudy) General Weather (fair, stormy)

HIGH LOW Pressure Change Towards Center (increase, decrease) incr decr Surface Winds Around Center (clockwise, counterclockwise) CW CCW Surface Winds Around Center (inward, outward) out in Vertical Motion (up, down) down up Change in Temperature of Vertically Moving Air (increases, decreases) State of the Sky Around Center (clear, cloudy) clear cloudy General Weather (fair, stormy)

Pressure Change Towards Center (increase, decrease) incr decr HIGH LOW Pressure Change Towards Center (increase, decrease) incr decr Surface Winds Around Center (clockwise, counterclockwise) CW CCW Surface Winds Around Center (inward, outward) out in Vertical Motion (up, down) down up Change in Temperature of Vertically Moving Air (increases, decreases) State of the Sky Around Center (clear, cloudy) clear cloudy General Weather (fair, stormy) “fair” “stormy”

Lows: Highs: CCW, inward upward, cloudy, “stormy” CW, outward downward, clear, “fair”

Project ATMOSPHERE Modules

Project ATMOSPHERE

Project ATMOSPHERE Foreword Each guide has been prepared to introduce fundamental understandings about the topic.

Project ATMOSPHERE Foreword Introduction Each guide has been prepared to introduce fundamental understandings about the topic. Introduction This is a narrative summary of background information to introduce the topic.

Project ATMOSPHERE Foreword Introduction Basic Understandings Each guide has been prepared to introduce fundamental understandings about the topic. Introduction This is a narrative summary of background information to introduce the topic. Basic Understandings A statement of principles, concepts, and information. They represent material to be mastered by the learner, and can be especially helpful in devising learning activities and in writing learning objectives and test items.

Project ATMOSPHERE Foreword Introduction Basic Understandings Activity Each guide has been prepared to introduce fundamental understandings about the topic. Introduction This is a narrative summary of background information to introduce the topic. Basic Understandings A statement of principles, concepts, and information. They represent material to be mastered by the learner, and can be especially helpful in devising learning activities and in writing learning objectives and test items. Activity Related investigations. Each activity typically provides learning objectives, directions for presenting and completing the activity and questions designed to reinforce the learning objectives.

Project ATMOSPHERE Foreword Introduction Basic Understandings Activity Each guide has been prepared to introduce fundamental understandings about the topic. Introduction This is a narrative summary of background information to introduce the topic. Basic Understandings A statement of principles, concepts, and information. They represent material to be mastered by the learner, and can be especially helpful in devising learning activities and in writing learning objectives and test items. Activity Related investigations. Each activity typically provides learning objectives, directions for presenting and completing the activity and questions designed to reinforce the learning objectives. References A brief list of references related to the guide topic is given for further reading.