[7] SD3.1 The student demonstrates an understanding of cycles influenced by energy from the



Similar documents
Education and Outreach Lesson Plan

Clouds and What They Mean

Clouds. A simple scientific explanation for the weather-curious. By Kira R. Erickson

Formation & Classification

Temperature affects water in the air.

Not all clouds are easily classified! Cloud Classification schemes. Clouds by level 9/23/15

FOR SUBSCRIBERS ONLY! - TRIAL PASSWORD USERS MAY NOT REPRODUCE AND DISTRIBUTE PRINTABLE MATERIALS OFF THE SOLPASS WEBSITE!

Make a Cloud Finder. How to Fold the Cloud Finder: Play the Weather Word Game:

If wispy, no significant icing or turbulence. If dense or in bands turbulence is likely. Nil icing risk. Cirrocumulus (CC)

Activity 4 Clouds Over Your Head Level 1

The Clouds Outside My Window. National Weather Service NOAA

Cloud Unit. Materials Needed: The Cloud Book by Tomie de Poala See the seven activities below for materials need for each activity.

Read and study the following information. After reading complete the review questions. Clouds

Satellites, Weather and Climate Module 2b: Cloud identification & classification. SSEC MODIS Today

Common Cloud Names, Shapes, and Altitudes:

TOPIC: CLOUD CLASSIFICATION

Water, Phase Changes, Clouds

Droplets. The Kiwi Kids Cloud Identification Guide. Written by Paula McKean

Clouds/WX Codes. B.1 Introduction

Analyze Weather in Cold Regions and Mountainous Terrain

Clouds, Fog, & Precipitation

Chapter 6: Cloud Development and Forms

Chapter 6 - Cloud Development and Forms. Interesting Cloud

Chapter 7 Stability and Cloud Development. Atmospheric Stability

Lecture 7a: Cloud Development and Forms

Clouds, Clouds, Everywhere

Teacher s Guide. Clouds. Grades 5-9 CLTV

Cloud Development and Forms. LIFTING MECHANISMS 1. Orographic 2. Frontal 3. Convergence 4. Convection. Orographic Cloud. The Orographic Cloud

Cloud Protocols. Welcome Introduction Protocols. Learning Activities Appendix. Purpose. Overview. Student Outcomes. Time. Level.

WeatherBug Vocabulary Bingo

Name: Date: LAB: Dew Point and Cloud Formation Adapted from Exploration in Earth Science, The Physical Setting, United Publishing Company, Inc.

WEATHER AND CLIMATE practice test

Precipitation forms from water droplets or ice crystals.

Cumulifor m clouds develop as air slowly rises over Lake Powell in Utah.

Clouds for pilots. Ed Williams.

A Teaching Unit for Years 3 6 children

The Importance of Understanding Clouds

Cloud. The Great British Weather Cloud Spotting Guide

YEAR 1: Seasons and Weather

CLOUDS TELL A STORY. Overview: Objectives: Targeted Alaska Grade Level Expectations: Vocabulary:

Fog and Cloud Development. Bows and Flows of Angel Hair

EDUCATOR S GUIDE Grades 3 8

Clouds and the Energy Cycle

An Online School for Weather.

SIXTH GRADE WEATHER 1 WEEK LESSON PLANS AND ACTIVITIES

SECOND GRADE 1 WEEK LESSON PLANS AND ACTIVITIES

6 th Grade Science Assessment: Weather & Water Select the best answer on the answer sheet. Please do not make any marks on this test.

Satellite Weather And Climate (SWAC) Satellite and cloud interpretation

Hazardous Weather Primer. CERT Basic Training Unit 0

Do You Know That Clouds Have Names?

Air Masses and Fronts

Clouds and Cloud Formation

Clouds: What They Are and What They Mean. Susannah Lopez. Introduction to Meteorology. 2 December 2008

Atmosphere. Cloud Protocols. Draft 9/15/00. GLOBE 2000 Cloud Protocols - 1 Atmosphere

Activity: Clouds, Air Pressure and Temperature

Partnerships Implementing Engineering Education Worcester Polytechnic Institute Worcester Public Schools

WEATHER THEORY Temperature, Pressure And Moisture

Severe Weather A Reading A Z Level T Leveled Book Word Count: 1,775

Cloud seeding. Frequently Asked Questions. What are clouds and how are they formed? How do we know cloud seeding works in Tasmania?

Energy Pathways in Earth s Atmosphere

Let s Make a Cloud. Objective Demonstrate the combination of three natural elements, to form a cloud: water vapor, smoke and air pressure.

Fluffy Cloud Walk. Materials Used: Pictures of three types of clouds: cirrus, stratus, cumulus

Page 1. Weather Unit Exam Pre-Test Questions

FOURTH GRADE WEATHER

CHAPTER 5 - SKY CONDITION

Electromagnetic Radiation (EMR) and Remote Sensing

Name: OBJECTIVES Correctly define: WEATHER BASICS: STATION MODELS: MOISTURE: PRESSURE AND WIND: Weather

Tune In to The Zula Patrol

Chapter 10 Weather. Weather in Antarctica is characterized by extremes: extreme temperatures, extreme

In a majority of ice-crystal icing engine events, convective weather occurs in a very warm, moist, tropical-like environment. aero quarterly qtr_01 10

An Essential Guide. part one

Stability and Cloud Development. Stability in the atmosphere AT350. Why did this cloud form, whereas the sky was clear 4 hours ago?

COMMON CORE Lessons & Activities

WEB-BASED LESSON PLAN

Sample Cooperative Learning Lesson Plan

Weather Theory. Chapter 11. Introduction

AERODROME METEOROLOGICAL OBSERVATION AND FORECAST STUDY GROUP (AMOFSG)

UNIT IV--TEMPERATURE-MOISTURE RELATIONSHIP

This chapter discusses: 1. Definitions and causes of stable and unstable atmospheric air. 2. Processes that cause instability and cloud development

Types of Clouds Accordion Book

Basics of weather interpretation

HUMIDITY AND PRECIPITATION

60 minutes total (two 30 minute sessions)

Georgia Performance Standards Framework for Natural Disasters 6 th Grade

THIRD GRADE WEATHER 1 WEEK LESSON PLANS AND ACTIVITIES

Grade 4 Standard 1 Unit Test Water Cycle. Multiple Choice. 1. Where is most water found on Earth? A. in glaciers B. in lakes C. in rivers D.

KINDERGARTEN WATER 1 WEEK LESSON PLANS AND ACTIVITIES

What Causes Climate? Use Target Reading Skills

Glaciogenic Cloud Seeding to Increase Orographic Precipitation Bruce A. Boe Director of Meteorology

Minnesota Comprehensive Assessments-Series III

Observed Cloud Cover Trends and Global Climate Change. Joel Norris Scripps Institution of Oceanography

Severe Weather. Visit for thousands of books and materials.

Summary This lesson will introduce the concept of the water cycle by using a simple demonstration.

CGC1D1: Interactions in the Physical Environment Factors that Affect Climate

Transcription:

Cloud Types Levels Overview: During this project, students learn about different types of clouds and determine which type of cloud is most commonly overhead in their area over a period of four weeks. Objectives: The student will: identify different types of clouds; observe the sky daily and record the type of clouds overhead; and determine the type of cloud most commonly overhead over the course of a month. GLEs Addressed: Science [5-8] SA1.1 The student demonstrates an understanding of the processes of science by asking questions, predicting, observing, describing, measuring, classifying, making generalizations, inferring, and communicating. [6] SD3.1 The student demonstrates an understanding of cycles influences by energy from the sun and by Earth s position and motion in our solar system by connecting the water cycle to weather phenomena. [7] SD3.1 The student demonstrates an understanding of cycles influenced by energy from the sun and by Earth s position and motion in our solar system by describing the weather using accepted meteorological terms (e.g., pressure systems, fronts, precipitation). Whole Picture: Clouds are formed when water on Earth evaporates and forms water vapor held in the air. As warm air rises, cooling occurs. The cooler the air, the smaller the amount of water vapor it can hold, therefore some of the water vapor is forced to condense onto tiny particles (dust, pollution) floating in the atmosphere. A small drop of water forms around each particle. A cloud is a visible mass of such water in the form of small droplets or ice crystals that are small enough to stay suspended in the atmosphere. Clouds can be categorized into three basic types: cirrus, cumulus, and stratus. Cirrus clouds are characterized by thin, wispy strands that appear high in the sky, generally between 20,000 and 40,000 feet (6 to 12 kilometers) but may be much higher. This is the equivalent of several miles, as one mile equals 5,280 feet. Here the water droplets freeze and form ice crystals. High winds blow the clouds into long streamers thin enough for sunlight and moonlight to pass through. Airplanes traveling at such heights leave condensation trails that can turn into cirrus clouds. A thickening, or abundance, of cirrus clouds can be an indication of an approaching frontal system. In Latin cirrus means curl of hair. Cumulus clouds are characterized by puffy, billowing towers of white that can extend for thousands of feet, usually beginning with flat bases ranging from 4,000 to 8,000 feet (1.2 to 2.5 kilometers) in altitude. Such clouds are formed when warm, moist air rises. As it rises, the air cools and condensation occurs. The size of a cumulus cloud depends on the force of the upward movement of the air and the amount of moisture in the air. The presence of cumulus clouds indicates fair weather, however when such clouds continue to grow ACMP 2006-2008 UAF Geophysical Institute B-1 Cloud Types III-IV Grades 5-8

larger and taller, forming cumulonimbus clouds, they can produce heavy rain, lightning, winds, hail, and even tornadoes. In Latin, cumulus means heap. Stratus clouds are characterized by their uniform look, blanketing the sky with white and grey. Such clouds are often formed when a layer of warm, moist air passes over a layer of cool air. As the two layers meet, the warm air cools to the point of condensation, forming a blanket-like cloud. These flat, featureless clouds are low in altitude (usually 2,000 to 7,000 ft.) and obscure the sun. Stratus clouds can reach the ground. When this happens it is called fog. Above-ground, stratus clouds may bring light mist, drizzle, or light snow. In Latin, stratus means layer. Terms such as altostratus, stratocumulus, and cirrostratus help further define cloud types based on a combination of structure and height. The term nimbus is added as a prefix or suffix to indicate the presence of precipitation. A nimbostratus cloud is a stratus cloud that is producing rain or snow. A cumulonimbus cloud is a cumulus cloud producing stormy, wet weather. Clouds appear white because the water droplets and ice crystals reflect sunlight. Light is composed of a spectrum of colors that when added together appear white to the human eye. Clouds appear gray when the droplets begin to crowd together so the sunlight cannot pass through. This can also be an indication the cloud is becoming oversaturated and will produce rain, snow, or hail. Materials: Chalk pastels Construction paper Pictures of cloud types (downloaded from the ACMP Web site) Tape STUDENT LAB PACKET: Cloud Types Activity Procedure: 1. Go to the ACMP Web site, at www.arcticclimatemodeling.org, and click on Tools and Data to download and print cirrus, cumulus, and stratus cloud pictures for the lesson. 2. Distribute pastels and construction paper and ask each student to draw a cloud on their paper. Allow students time to complete their drawing. 3. Collect pastels then discuss the three primary types of clouds: cirrus, cumulus, and stratus. Cirrus: Wispy white clouds made of ice crystals. They are found as high as 10 miles above Earth. Cumulus: Fluffy white clouds that grow vertically between 700 and 12,200 meters above Earth. Cumulus clouds can increase in number and become larger in the afternoon. Stratus: Thin-layered stratus clouds form close to the ground. Fog is a low-lying stratus cloud. 4. Draw three columns on the chalkboard and label them Cirrus, Cumulus and Stratus. Tape the correct downloaded pictures into each column. Ask students to work together to tape their pictures into the appropriate columns. 5. Distribute the STUDENT LAB PACKET: Cloud Types and introduce the testable question for this activity: What cloud type will be over our area most frequently this month? 6. Ask students to think about what types of clouds they have seen overhead lately and make a hypothesis. 7. Explain that students will test their hypotheses by observing cloud types at the same time each school day for the next 4 weeks. They will record their observations in their lab packets and on the ACMP Student Observation Network. Set aside a few minutes each day for students to complete this task. ACMP 2006-2008 UAF Geophysical Institute B-1 Cloud Types

8. After students have collected data for 4 weeks, ask them to graph and analyze their data. Discuss the validity of the data. What are the weaknesses of this data set? Discuss student conclusions. 9. Ask students to create a bulletin board illustrating their cloud type investigation. Answers to Student Lab Packets: Hypothesis, Data, Analysis and Conslusions will vary. All sections, including the Cloud Type Data Chart and bar graph, should be completed. The bar graph should accurately represent the data recorded in the Cloud Type Data Chart. Further Questions: 1. Cirrus 2. Stratus 3. Cumulus ACMP 2006-2008 UAF Geophysical Institute B-1 Cloud Types

Name: Cloud Types Student Lab Packet (page 1 of 3) Levels III-IV Testable Question: What cloud type will be over our area most frequently this month? Background Information and Activity: Cirrus: Wispy white clouds made of ice crystals. They are found as high as 10 miles above Earth. Cumulus: Fluffy white clouds that grow vertically between 700 and 12,200 meters above Earth. Cumulus clouds can increase in number and become larger in the afternoon. Stratus: Thin-layered stratus clouds that form close to the ground. Fog is a low-lying stratus cloud. Hypothesis: Make a check mark next to the cloud type that you expect to find overhead most frequently this month. Cirrus Cumulus Stratus Procedure: 1. Select a time each school day to observe the clouds outside the classroom window. 2. Each school day for 4 weeks, look outside at this time. Record the cloud type that you see on the Cloud Type Data Chart. If you see more than one cloud type, place an X in more than one column on the chart. 3. Visit the Science Observation Network at http://www.arcticclimatemodeling.org, and record cloud information for your village on the network by clicking on the appropriate cloud type. If there are no clouds today, click on Clear. ACMP 2006-2008 UAF Geophysical Institute B-2 Cloud Types

Name: Cloud Types Student Lab Packet (page 2 of 3) Cloud Type Data Chart Day Cirrus Cumulus Stratus Clear Sky 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Analysis of Data: Make a bar graph showing the number of school days that each cloud type was visible this month. Cirrus Cumulus Stratus Clear Sky 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Number of Days ACMP 2006-2008 UAF Geophysical Institute B-3 Cloud Types

Name: Cloud Types Student Lab Packet (page 3 of 3) Conclusion: Make a check mark next to the cloud type that was overhead most frequently this month. Cirrus Cumulus Stratus Was your hypothesis proved or disproved? Briefly explain how you came to your conclusion: Further Questions: Label each cloud type in the pictures below: 1. 2. 3. ACMP 2006-2008 UAF Geophysical Institute B-4 Cloud Types

2026 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information