Practice: Gathering and Sharing Information

The Monarch Butterfly Watch (2-12)

Duration: Several 45 to 60 minute sessions (that may extend over several weeks)

• Develop and enhance problem-solving skills
• Participate in a collaborative learning activity, and communicate via e-mail with others in different geographic areas
• Use the Internet responsibly for exploration
• Refine data collection and processing skills
• Create electronic journals to assess understanding and to share information with other audiences

• Computers with Internet connection (1 per 2 to 3 students)
• Materials suggested by the Journey North Web site for collecting data and documenting activities
• Digital projector connected to a computer to display migration maps (optional)

Instructors should determine students' computer and Internet skill levels and select appropriate technology tools. Instructors should also have basic computer skills, including familiarity with the Internet and e-mail.

• Visit the Journey North Web site www.learner.org/jnorth/ to learn about current and future projects. Review the Orientation, this season's projects, and Teachers sections.
• Plan activities and prepare project materials recommended in the Journey North Web site. The Web site contains helpful suggestions and ideas that are appropriate for different students' ability levels. For links to selected resources, see the Resources tab.
• Reserve technology and obtain other materials that might be needed according to the project guidelines.

Engage students with a dynamic introduction to the project topic that solicits their immediate feedback.

• State that each fall, millions of Monarch butterflies fly across North America and head south to a remote location in Mexico. Then ask, Why do you think they migrate to this part of Mexico?
• Tell students that the butterflies also return to their original home each spring. Follow that by asking more questions: Why do they return home each spring? Do you remember seeing these butterflies in your yard during spring or fall? Did you think that they might be just traveling through—on their way to or from Mexico?
• Elaborate on the topic of migration as appropriate for the age and grade level of your group. The Journey North Web site offers practical suggestions for this discussion.
• Explain how the activity of tracking the butterflies' migration path will be carried out as a collaborative project with other students across North America.
• Tell students that they can e-mail sightings and other data to the larger community of participants and compare experiences with them during the migration.

Explore connections between natural and man-made phenomena as a class.

• Explore maps, photos, and other resources on the Journey North Web site. Depending on the age level of your students, you may choose to include additional research on the Internet to learn more about Monarch butterflies, including the length of their migration routes, their life cycle, their host plants and predators, and how they can be tracked as they migrate across the U.S. to their winter home in Mexico.
• Ask students to compare Monarchs to other insects and migrating wildlife, as well as to other butterflies.
• Have students collect weather data, read postings from other students on the progress of seasonal migrations, and watch for the appearance of Monarch butterflies.
• Read about fields and cities that the butterflies fly over to learn about some environmental conditions that threaten their safety.

Explain project findings.

• Following the Journey North guidelines and suggestions, have students create electronic journal entries. These will help in assessing student understanding.
• If time allows, have students create a project portfolio to collect, record, and display qualitative and quantitative observations, life cycle studies, weather information, maps, research findings, and more—all in one folder. At the end of the season, the portfolio showcases all student work on the Journey North Web site.

• Encourage students to make connections during the course of the lesson with scientists, naturalists, or others in the community who may be involved with similar work. You may facilitate dialogue by inviting an expert to the classroom or arranging a question-and-answer session using e-mail or the Internet.

• A demonstrated ability to collect, evaluate, and communicate information in a collaborative activity
• Evidence of problem solving
• Discussion and theories about Monarch butterfly migration habits as well as those of other wildlife

Digital Smiles (4-6)

Duration: 4 to 6 sessions, 45 to 60 minutes each

• Learn the research steps of gathering, analyzing, and presenting data
• Use a metric ruler to accurately measure length (in centimeters and millimeters)
• Use technology tools to record and analyze data
• Create charts that explain resulting data
• Understand "mean," "median," and "mode" (for upper elementary and middle school)

• Digital still cameras
• Metric rulers, yarn, data-collection worksheet
• Computer with an electronic spreadsheet application
• Computers (1 per 2 students is best) with a word-processing application; computers may be shared during the writing activity
• Projector with large-screen display or interactive whiteboard to display data as it is gathered and analyzed
• Digital video camera to document the activity (optional)

Instructors should determine students' computer and camera skill levels and select the appropriate technology tools. Instructors should also have basic computer skills, including a familiarity with digital cameras, electronic spreadsheets and calculation formulas, and word-processing software.

• Assemble all materials.
• Test and practice camera functions.
• Review the electronic spreadsheets and word-processing software functions.
• Prepare an electronic spreadsheet that will be used to compile the data.
• Rehearse the activity at least once.

Engage students.

• Ask the following series of questions and discuss their responses. How big is your smile? Who has the biggest smile? How can we measure and then compare the smiles of everyone in the group? How could we describe the length of something (that is, units of measure)?
• Explain that students are going to become "researchers" to learn more about children's smiles. Ask what they think they will discover. For example, do girls or boys have bigger smiles? Do older children have bigger smiles than younger children?
• Explain that to find the answers, they will need to collect and analyze some "data."
• Present the steps, and mention that they are basically the same for all researchers and scientists who are interested in finding out about things. Elaborate on the steps as necessary.
  1. Ask a question.
  2. Collect data.
  3. Analyze data.
  4. Interpret results.
  5. Present results.
  6. Share what is learned and plan next steps.
• You can write the steps on chart paper or on the board and point out the steps as the activity progresses.
• Explain that students will work in pairs to measure their smiles and then use computer technology to compare collected data. Introduce metric measurements, including "centimeters" and "millimeters," as well as the measuring tool they will use.

Collect data.

• Using a piece of yarn, have each student measure his or her partner's smile straight across from corner to corner.
• Transfer the yarn to a ruler and record measurements onto a worksheet or directly into the computer in both centimeters and millimeters. You may choose another unit of measure if desired.
• Have each student take a picture of his or her partner's smile.
• If you wish to document the activity to share with other instructors or parents, ask one or two students to operate the video camera (optional).

Record and analyze the data.

• Discuss how to create an electronic spreadsheet. Decide how to set up the rows and columns of the spreadsheet and assign names to each. Discuss calculations and formulas.
• Have teams enter their members' data into the spreadsheet.
• Once data are entered, show the data table of all students' smiles and ask who has largest smile, who has smallest smile, and how many have the same size smile.

Introduce spreadsheet capabilities.

• Introduce the term "average" and how it is computed.
• Show how the electronic spreadsheet application can automatically figure the average. If appropriate, introduce the terms "mean," "median," and "mode."
• After collecting your data, use the graphing capacity of your spreadsheet program, or enter your data into this free graphing tool, http://nces.ed.gov/nceskids/graphing/.

Interpret the data.

• Discuss students' findings and make charts from the data.
• Ask each student to write an account of the activity and include a digital picture and the metric measurements of his or her smile.
• E-mail findings to an older class and ask those students to analyze the smile data of the younger students. (optional)

Present the results.

• Share stories, pictures, and smile data.
• Evaluate the successful completion of each student's work.
• Use problems in the data collection or analysis as a valuable learning opportunity. Emphasize that this happens in real science experiments, too.

• An understanding that collecting and analyzing data helps scientists and others answer questions
• An understanding that electronic spreadsheets can assist in data collection, analysis, and presentation
• Familiarity with measuring tools and their use, units of measure, and (for older students) statistical terminology

Water, Water Everywhere (8-12)

Duration: This project could last at least two months. The length of daily sessions will vary according to your timeline. Some sessions will last longer than others, and some may be repeated.

• Understand the local environment and the issues that affect it
• Compare local environmental issues to other communities' environmental issues
• Practice scientific inquiry through questioning, hypothesizing, observing and recording data, and analyzing and communicating results
• Use scientific tools to measure
• Keep journals or records of scientific investigations
• Use technology to gather and share information and solve problems

• Safety goggles or spectacles
• Gloves
• Collection bags
• Water-testing kits for laptop or handheld computer probes (available at science-supply stores and online; probes are optional)
• Digital camera
• Handheld or laptop computers with spreadsheet software (optional)
• Materials for recording data, if you are not using handhelds or laptops
• Computer with projector, large-screen display, or interactive whiteboard to display data as it is gathered, analyzed, and shared
• Adult or older student volunteers to help with technology and field trips

How Much Technology?

This activity is flexible enough to let afterschool instructors decide how much technology to incorporate into the lesson. If your program has the equipment or resources to purchase equipment, students can use water probes to test water and record their results on handhelds or laptops. If this is the first time you are completing this project, you can start with simpler, less-expensive materials. Once you decide whether this project is suitable for your program, you can invest in more expensive materials. See the project's page on equipment for more information to make your decision (www.k12science.org/curriculum/waterproj/equipment.shtml).

Instructors should determine the skill level of students and select the appropriate technology tools. Instructors should also be familiar with any software or equipment used in the lesson, or enlist the help of a volunteer who is.

• Study thoroughly the collaborative online project, The Global Water Sampling Project: An Investigation of Water Quality at www.k12science.org/curriculum/waterproj/index.shtml. This project is the basis for this lesson.
• On the first day of the project, arrange for a community member to come talk with students about water quality. This can be an environmental scientist, chemist, biologist, etc., from the city parks department, college, city or state water quality board, or the Environmental Protection Agency.
• Use this lesson plan as well as the online project plan and dates to set up a project timeline.
• Spend time researching local environmental issues and identifying some potential locations to collect water samples.
• Communicate with parents regarding project plans, including timeline and field trips.
• Collect the necessary materials for the science and technology portions of the activity. Practice using the materials.

• Adults must supervise all data collection and cleanup. Choose the area wisely, looking for the safest environment for students.
• Students must wear gloves for cleanup and goggles when any water-testing chemicals are used.
• Do not collect data when a storm is forecast; observe the sky for rain showers and thunderstorms. Avoid streams in high water.
• Have a first-aid kit, sturdy shoes, proper clothing, and protection from the sun for all outings.

Engage students in an environmental study.

• Invite a guest speaker to discuss and share pictures of local streams and/or ponds showing the environmental conditions of the area and explaining the impact of water quality on a community.
• Take students online to The Global Water Sampling Project: An Investigation of Water Quality (www.k12science.org/curriculum/waterproj/index.shtml).
• Discuss with your students the collaborative project and what it entails.

Investigate water quality online.

• Lead students in conducting Internet research about the site where they will complete the project. If your students will be participating in creek restoration or cleanup as part of the project, encourage them to research that topic as well.
• To create a record of their work, students can keep electronic journals, either with word processing software or blogs.
• Have students look at the online project Web site and plan for your field testing.
• Develop a hypothesis (a proposal that students will try to prove or disprove with the data) on water quality and what students expect to see in the data.

Test water quality.

• Have students test water for the pH level (acidity), nitrates, dissolved oxygen, and other physical parameters.
• Follow the online project guide for specifics on sample collection.
• Record data on a handheld or laptop computer spreadsheet.
• Document your field testing by taking pictures with a digital camera.
• Invite students to add pictures to their electronic journals.

Submit data to the project Web site.

• Log on to the Global Water Sampling Project Web site and submit the data you collected.
• Upload pictures to the project Web site.
• As a class, analyze the data you collected and decide whether it proves or disproves your hypothesis.
• Have students use technology to share their findings by posting comments in the project discussion area, contacting an expert in the resources listed on the project Web site, or writing in their electronic journals.

• Investigate opportunities for students to participate in creek restoration projects and measure the impact of their work.
• Invite local or state environmental agencies to talk to students about careers in environmental sciences.
• Have students create final reports and displays, and invite families and community members to see their work.

• Students understand and use tools of data analysis for managing information
• Organize observed data into tables, charts, and graphs
• An understanding of their community and their role

For more information and ideas to support this lesson, see the Resources page.