1 / 51

Air Pressure & Precipitation: Understanding the Atmosphere

Learn about air pressure and precipitation in this comprehensive lesson. Discover how air pressure is influenced by gravity, and how it affects weather patterns and the water cycle. Understand the different types of precipitation and the processes involved in the formation of clouds.

shanel
Télécharger la présentation

Air Pressure & Precipitation: Understanding the Atmosphere

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. BEFORE THE BELL RINGS • Please copy your homework into your assignment book

  2. Warm-up What instrument is used to measure air pressure? What are condensation nuclei and why are they important? End

  3. Tuesday, January 10, 2017 • Warm-up • Review air pressure, precipitation, water cycle, and clouds • Work on Midterm Review • Homework: Midterm Exam Review due 1/17

  4. AIR PRESSURE

  5. Keeping an Atmosphere • Atmosphere is kept by the world’s gravity • Low mass (small) worlds = low gravity =almost no atm. • High mass (large) worlds = high gravity = thick atm. • Gravity and pressure • Air pressure depends on how much gas there is • i.e. The atmospheric thickness.

  6. Gravity and Atmospheric Pressure • The stronger the gravity, the more gas is held by the world and the greater the weight of atm. on a point

  7. Earth’s Atmosphere • About 10 km thick • Consists mostly of molecular nitrogen (N2) and oxygen (O2)

  8. The air is made up of molecules.

  9. Gravity pulls the air molecules toward the earth, giving them weight. The weight of the air molecules all around us is called the air pressure.

  10. High altitudes = lower pressure Low altitudes = higher pressure

  11. Atmospheric Pressure Gas pressure depends on both density and temperature. Adding air molecules increases the pressure in a balloon. Heating the air also increases the pressure.

  12. Air pressure is equal in all directions. Pressure = force per unit area

  13. Barometric pressure goes down. As elevation goes up This is an inverse relationship.

  14. A Barometer is used to measure air pressure.

  15. Changing Pressure A rising barometer = increasing air pressure. This usually means: Rising barometer readings indicate that a high pressure system is approaching. Higher atmospheric pressure is usually associated with fair weather and clearing skies.

  16. Changing Pressure A falling barometer = decreasing air pressure. This usually means: Falling barometer readings usually indicate the approach of an area of low pressure. Low pressure readings are usually associated with storm systems. Tornadoes and hurricanes can produce very low barometric readings.

  17. PRECIPITATION

  18. What is Precipitation? • Precipitation is the falling of any form of water from the air to Earth’s surface. Examples: Rain Snow Sleet Hail Freezing Rain • Condensation Nuclei anything water vapor can condense onto such as dust, smoke, salt, etc.

  19. Types of Precipitation • RAIN: (Condensation) Forms when condensed water vapor forms tiny water droplets in clouds. When the droplets get big enough (Coalesce), they fall to the Earth.

  20. Types of Precipitation 2.SNOW (Deposition) Forms when the air temperature is below freezing, water vapor turns directly into a solid. These ice crystals fall to Earth as Snow.

  21. Types of Precipitation 3. SLEET: (Snow-Rain-Freeze) Forms when rain passes through a layer of air which is below freezing. The rain then freezes into ice and falls to the Earth.

  22. Types of Precipitation 4. FREEZING RAIN: (Snow-Rain) Forms when the Earth’s surface is below freezing but the atmosphere is warm. When rain hits the surface, it freezes on contact creating a layer of ice on the ground, trees, cars, power lines, etc.

  23. Types of Precipitation 5. HAIL: (Summer-Time) Forms when a rain drop in a cumulonimbus cloud is blown to the top of the cloud and freezes. This frozen drop then falls down through the cloud where it “grows” by collecting more liquid water. This process continues until the hail stone is too heavy to stay in the cloud and falls to Earth.

  24. Water Processes • Liquid water turns into a Solid (ice) • FREEZING • Solid water (ice) turns into a liquid • MELTING • Liquid water turns into a gas (water vapor) • EVAPORATION • Water vapor (gas) turns into a liquid • CONDENSATION • Water vapor (gas) turns into a solid (ice) • DEPOSITION • Solid Water (ice) turns into water vapor (gas) • SUBLIMATION

  25. The Water Cycle • The Water Cycle (also known as the hydrologic cycle) is the journey water takes as it circulates from the land to the sky and back again. • The Sun evaporates water from the Earth's surface (oceans, lakes, etc.). The water vapor eventually condenses, forming tiny droplets in clouds. When the clouds meet cool air over land, precipitation (rain, sleet, or snow) begins. The water flows downhill as runoff (above ground or underground), eventually returning to the seas where the process begins again.

  26. CLOUDS Chapter 11.3 notes

  27. Cloud Formation • Clouds form as warm moist air is forced upwards, cools and water vapor condenses to form tiny water droplets. • Millions of tiny water droplets gather together to form a cloud

  28. Cloud Formation • Dry Adiabatic Lapse Rate – • how fast unsaturated air will cool as it rises DAR = 100C for every 1000m rise • The height at which the dew point is reached and a cloud begins to form, the Lifted Condensation Level (LCL) has been reached. • Usually, the LCL is marked by the base or bottom of the cloud • Moist Adiabatic Rate - how fast saturated air cools above the LCL • MAR = avg. 60C for every 1000m rise

  29. Cloud Formation • OrographicClouds • are clouds that are formed as moist air rises over mountains or other major geographic features. The air floats up the side of the mountain and cools quickly, condensing and turning into a cloud.

  30. Cloud Classification • Two common ways to classify clouds: • 1. By Their Shape • Stratus • Cumulus • Cirrus • 2. By Their Height • Cirro • Alto • Strato

  31. Stratus Clouds

  32. 3 Cloud Types Based on Shape • 1. Stratus • Form in layers or smooth even sheets • Usually low altitude clouds • Associated with fair weather or drizzle • Sometimes forms a gray blanket covering the entire sky and produces light rain or drizzle

  33. Cumulus Clouds

  34. 3 Cloud Types Based on Shape • 2. Cumulus • Masses of puffy white clouds • Associated with fair weather but may possibly produce thunderstorms

  35. Cirrus Clouds

  36. 3 Cloud Types Based on Shape • 3. Cirrus • High, thin, white, feathery clouds • Associated with fair weather • Indicate that bad weather may be approaching

  37. Height – Prefixes for Cloud Base • Cirro – High Level Clouds • Alto – Middle Level Clouds • Strato – Low Level Clouds

  38. Other Types of Clouds • Vertical Development • High, towering clouds usually with a low altitude base • Nimbus • Dark clouds associated with heavy rain and storm

  39. Cirrus Cirrostratus Cirrocumulus AltoStratus Stratus Altocumulus Cumulus Stratocumulus Nimbostratus Cumulonimbus 10 Common Cloud Names

  40. Altocumulus Clouds

  41. Altostratus Clouds

  42. Cirrocumulus

  43. Cirrostratus Clouds

  44. Cirrus Clouds

  45. Cumulonimbus Clouds

  46. Cumulus Clouds

  47. Stratus Clouds

  48. Nimbostratus Clouds

More Related