EARTH SCIENCE 5.9 (WIND) WEATHER

Similar documents
3 Global Winds and Local Winds

3 Global Winds and Local Winds

Global Winds and Local Winds

Wind and Air Pressure

Local and Global Winds

Atmosphere & Weather. Earth Science

Atmospheric Circulation

Atmosphere Circulation

Chapter: Atmosphere Section 3: Air Movement

Earth s Atmosphere. Air Currents

Section 3: Atmospheric Circulation

Wind Movement and Global and Local Winds

Wind and Wind Patterns

Full Name: Class: Period: Date:

3 Global Winds and Local Winds

Chapter: Atmosphere Section 3: Air Movement

Lesson: Atmospheric Dynamics

Section 1. Global Wind Patterns and Weather. What Do You See? Think About It. Investigate. Learning Outcomes

Wind Patterns on Earth

ATMOSPHERIC CIRCULATION

Warm-up. color mass. albedo. mirage

6.1 Introduction to Weather Weather air mass Weather factors Temperature Pressure What is wind? Wind Convection in the atmosphere Thermals thermal

Exploring Wind Energy

Think it Over. Now that we have completed the activity, make any necessary changes to your prediction.

W3 Global Circulation Systems

Wind in the Atmosphere

Trade winds Prevailing westerlies east

T. James Noyes, El Camino College Winds Unit (Topic 8A-1) page 1

Read each slide, some slides have information to record on your organizer. Some slides have numbers that go with the question or red and underlined

Prevailing Winds. The Coriolis Effect

Wind is caused by differences in air pressure created by changes in temperature and water vapor content.

Carolina TM Coriolis Effect and Atmospheric Circulation Kit STUDENT GUIDE

Lecture The Oceans

The Coriolis Effect - Deflect the Arrows!

Fluid Circulation (Student Mastery Objectives) -The most frequent type of heat transfer of energy in the atmosphere is convection.

WINDS Understand the cause of wind and how it affects climate Chapter 4 Pages 59-67

ATOMOSPERIC PRESSURE, WIND & CIRCULATION

Copy and answer the following in your marble composition book. 1. Which direction is the wind deflected in the northern hemisphere?

Convection Current Exploration:

Worldwide Wind 1-2 KEY CONCEPTS AND PROCESS SKILLS KEY VOCABULARY ACTIVITY OVERVIEW E-191

8 th Grade Science Meteorology Review

6.9B verify through investigations that thermal energy moves in a predictable pattern from warmer to cooler 6.5B recognize that a limited number of

What is Wind? Winds are caused by differences in air pressure. This is horizontal movement of air of high pressure to low pressure. Unequal heating of

Horizontal movement of air between cooler and warmer regions. - horizontal movement of air Convection over areas where is

Finish Characteristics of Climate

Write answers on your own paper. A. the Sun B. the Moon C. Earth s gravity D. Earth s rotation

Wind in the Atmosphere

Earth s Atmosphere. Earth s atmosphere is a key factor in allowing life to survive here.

Earth s Atmosphere. Atmospheric Gases. Other Gases. Solids in the Atmosphere

ATMOSPHERIC CIRCULATION. WIND = The horizontal movement of air. Results from the differences in air pressure. Always moves from HIGH to LOW.

Weather Unit Study Guide

Atmospheric Gases. Earth s Atmosphere extends from earth s surface to outer space. It is made up of a mixture of gases with some solids and liquids.

Unit Test Study Guide:

Circulation Patterns

The Atmosphere and Winds

I. Atmosphere. Maintains a balance between the amount of heat absorbed from the Sun and the amount of heat that escapes back into space.

Lornshill Academy. Geography Department Higher Revision Physical Environments - Atmosphere

Air Pressure and Winds

Introduction to Physical Oceanography STUDENT NOTES Date: 1. What do you know about solar radiation at different parts of the world?

Station 1: Solar Radiation on Earth

Chapter 6: Atmospheric Pressure, Wind, and Global Circulation

Aim: Why does air move?

Chapter 7 Weather and Climate

Ocean Currents that Redistribute Heat Globally

Global Wind Paerns. specific. higher. convection. rises. rotates. equator Equatorial. Subtropical High. long. lower. troposphere. sinks.

Weather & Atmosphere Study Guide

Atmospheric Circulation (Ch. 8) Ocean & Atmosphere are intertwined Gases & waters freely exchanged Wind Weather Climate

Water on Earth. How do oceans relate to weather and the atmosphere? Solar Radiation and Convection Currents

CHAPTER 6 Air-Sea Interaction

The student will be expected to demonstrate an understanding of the cause of winds and how winds affect climate.

Notepack 41. Aim: What factors determine the climate of a certain area? Do Now: What is the difference between weather and climate?

Meteorology I Pre test for the Second Examination

Write on your own paper.

10.2 Energy Transfer in the Atmosphere

The student will be expected to demonstrate an understanding of the cause of winds and how winds affect climate.

Wednesday, September 20, 2017 Reminders. Week 3 Review is now available on D2L (through Friday) Exam 1, Monday, September 25, Chapters 1-4

9/25/2014. Scales of Atmospheric Motion. Scales of Atmospheric Motion. Chapter 7: Circulation of the Atmosphere

Winds and Ocean Circulations

Atmospheric & Ocean Circulation-

SIO20 - Midterm Examination 2 v1 Winter Section A. Circle the letter corresponding to the best answer. (1 point each)

Atmospheric Circulation. Recall Vertical Circulation

Atmospheric Circulation. Density of Air. Density of Air: H 2 O and Pressure effects

Air Pressure and Wind

Land and sea breezes are an example of which type of heat transfer?

SIXTH GRADE OCEANS 1 WEEK LESSON PLANS AND ACTIVITIES

Wednesday, September 27, 2017 Test Monday, about half-way through grading. No D2L Assessment this week, watch for one next week

Santa Ana Winds. Surface weather map showing typical Santa Ana conditions.

Satellites, Weather and Climate Activity: Air & water lab Created by: Mike Burris, Champlain Valley Union High School, VT

Atmospheric & Ocean Circulation- I

9.3. Storing Thermal Energy. Transferring Thermal Energy

Chapter. Air Pressure and Wind

McKnight's Physical Geography 11e

Name Date L.O: SWBAT explain what breezes, planetary winds, ocean currents & monsoons are.

The atmospheric circulation system

6.9B verify through investigations that thermal energy moves in a predictable pattern from warmer to cooler 6.5B recognize that a limited number of

What Causes Different Weather?

Meteorology. Circle the letter that corresponds to the correct answer

Applied Earth Science Climate Exam Practice Questions Page 1

For Class Today How does ocean water circulate? Ocean currents, surface currents, gyres, currents & climate, upwelling, deep ocean circulation

Greenhouse Effect Activity

Transcription:

EARTH SCIENCE 5.9 (WIND) WEATHER Video Notes Key Points: 1. According to the video, what two factors cause wind: a. b. 2. Fill in the blanks from this quote from the video: Energy from the Sun heats the, and the heat warms the air over the. 3. According to the video, when the air molecules go faster, they don t weigh as much. What happens to the cold air after this? 4. The video shows smoke representing cold air. Where is the air sinking on the model? (Hint: He says the air is sinking over the cold what?) 5. He then says that the air is rising over the warm parts? If you were looking at a model of the Earth, where would the warm parts be? 6. Why does wind come from all different directions? Earth Model: 9 th GRADE 5

EARTH SCIENCE 5.9 (WIND) WEATHER Video II Notes: 1. How does wind happen: 2. Fill in this quote from the clip: Air near the is heated by energy of the Sun, so it becomes less and. 3. Fill in this quote from the clip: Near the, there s not as much heating by the Sun, and that cold, dense air down toward the Earth. 4. The turning of wind belts because of Earth s rotation is known as the. (Note: We will learn more about this later!) What is Wind? Wind is simply air in motion. It is produced by uneven heating of the Earth s surface by energy from the Sun. Since the Earth s surface is made of very different types of land and water, and the tilt of the Earth causes insolation to heat locations on the Earth at different rates, the Earth heats at different rates. When insolation strikes different surfaces, some of that energy is converted into heat, which also heats the surrounding air. The energy of wind comes from the Sun. When the Sun shines, more of the radiant energy (insolation) reaches the tropics/equatorial region than the poles. Even despite this, some types of land absorb more sunlight than others (for example, the sands of the desert reflect a lot of sunlight, which reduces the amount of heat absorbed). When this insolation is absorbed, the land turns this into heat (think of a blacktop on a hot summer day, or how hot a sandy beach is in August). As this air warms, it expands. The molecules get farther apart. The warm air is then less dense than the air around it and rises in the atmosphere. Cooler, denser air nearby flows in to take its place. This movement of air is what we call wind. It s caused by the uneven heating of Earth s surface. 9 th GRADE 6

EARTH SCIENCE 5.9 (WIND) WEATHER How is wind formed? At Earth s surface, winds blow in response to differences in air pressure. Winds always move from places of higher pressure to places of lower pressure (i.e. along a pressure gradient). When you exhale, you do so by squeezing the air in your lungs, increasing the pressure. Air escapes from your body to equalize the pressure inside and outside your lungs. You learned earlier that atmospheric pressure is caused by the weight of the atmosphere. Differences in the density of air cause changes in the weight of the air. Primarily, temperature and humidity determine the density of air. (As temperature and humidity increase, air becomes less dense.) When air density increases, so does air pressure at Earth s surface, forcing the air to move to places with a lower surface pressure. This often creates a localized convection cell, where regions of high pressure and low pressure circulate as density changes as a result of temperature. 9 th GRADE 7

Flight times from JFK (in NYC) to SFO (San Francisco): Flight times from SFO to JFK: 2

Video - Define the following two terms: 1. According to the video, warm air weighs less than cool air. This creates a pressure area. Similarly, cool air is, and creates an area of pressure 2. A narrow band of fast-moving air about eight (8) miles above the Earth is referred to as the. a. The jet stream influences weather across the Northern hemisphere b. When the jet stream moves over the ocean, it often creates a region of, or a surge of warm air rushing up from the ocean 3. According to the video, what is wind:. 4. What prevents winds from blowing directly North or South toward the Equator: 5. Instead, the winds that blow toward the Equator curve 6. Winds the blow away from the Equator move toward the a. This phenomenon is called the 7. A mass of air that moves together in a circular motion is a a. Cold air sinks at the and then flows North or South, where it and again to complete a polar cell 3

Prevailing Winds: In New York State, winds blow from the west and southwest more often than they come from any other direction. Remember, winds are labeled according to the direction you face when you look into the wind. Prevailing winds refer to the most common wind direction and speed at a particular location and time of year. The picture below shows how winds might blow if Earth were not spinning. Cold air would sink at the poles and travel along the surface toward the Equator. Strong sunlight heating the air near the equator would cause the air to rise and move back toward the poles. Two large convection cells, as shown in the vertical profile, would dominate planetary winds. Why would the air sink at the poles and rise at the Equator: Earth s rotation modifies this motion through the Coriolis effect, as shown in the second image below. Winds curving to the right in the Northern Hemisphere and to the left in the Southern Hemisphere break the two convection cells shown in the first image into six convection cells. Within each cell, winds curving to the right in the Northern Hemisphere and to the left in the Southern Hemisphere change the North and South winds into winds east and west winds. Regional weather systems (highs and lows) complicate the pattern even more. Winds can come from any direction depending on changes in the pressure gradient. 4

The Jet Stream: Jet streams were discovered during the Second World War when the pilots of high-altitude aircraft found themselves traveling much slower than their air speed indicated. Today, aircraft will sometimes change their flight paths to take advantage of fast tail winds, or to avoid fighting head winds. Wandering currents of air far above Earth s surface are known as jet streams. With wind speeds that can be greater than 160 km/h (100 mph), jet streams circle the globe, usually in the middle latitudes. Jet streams seldom follow surface winds and usually occur where cold polar air meets warmer air in the mid-latitudes. They circle the globe from west to east, usually in the upper part of the troposphere. This west to east motion is also what drives most storms that pass through the United States! 5

The path of the jet stream is changeable as it meanders around the globe. In fact, two jet streams sometimes develop in the Northern Hemisphere. They tend to occur at the northern and southern limits of the zone of prevailing westerly winds. The image on the previous page, taken from the Earth Science Reference Tables, is a generalization of the pattern of winds on our planet. This diagram shows the large convection cells responsible for prevailing surface winds at various latitudes. Notice how the jet streams generally occur in the regions between the circular convection cells. Q: A storm starts to form in the Arizona. According to the jet stream, which direction will it travel over the next few days: Practice: 1.) 2.) 3.) 4.) 6

5.) 6.) 7.) 8.) 9.) 7

10.) What is meant by prevailing winds? Answer: 10.) 11.) 8

12.) 13.) 14.) 9

10

2024 © sportdocbox.com Privacy Policy | Terms of Service | Feedback