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Program Wildest Weather in the Solar System

  • Tips & Modifications

    Tip

    Sunspot graph data will fluctuate depending on the solar activity of the day. The calculations for the chart should leave students with an average rotational period of between 25 and 36 days. You may want to check the current solar activity before you set up the activity. If there isn't enough for students to track, select a date range on the SOHO website that will provide enough sunspot activity for them to track.

    1. Activate students’ prior knowledge about the sun and solar energy.
    Project the KWL Chart on the board. Ask students to brainstorm a list of things they already know about the sun and solar energy. Students may brainstorm information such as: the sun is a star, we receive energy that can be harnessed (solar panels), we shouldn't look directly at the sun, and plants need sunlight to grow. Have students list ideas in the “Know” column. Then, invite volunteers to add to the “Want to Know” column. Encourage students to generate questions such as: Does the sun rotate? How does the sun affect our seasons? and What are solar storms? Tell students that they will learn about the sun and solar storms in this activity, and they will return to the KWL chart later to complete column 3.

    2. Establish a purpose and watch the video “Solar Storms.”
    Have students watch the National Geographic Channel video “Solar Storms.” Ask: What tools are scientists using to predict solar storms? Elicit from students that scientists are creating computer models by mapping the sun’s magnetic fields, or electrical currents. Explain to students that sunspots are regions of extremely strong magnetic field found on the sun’s surface. The average lifetime of a medium-sized sunspot grouping is about one solar rotation, or 27 days. Then, ask students to think about how they use technology in their daily lives. Ask: Why are solar storms a threat to our high-tech lives? What might some examples be? Students should be able to infer that the electrical activity from the sun has the ability to interrupt electrical activity on Earth, and provide examples.

    3. Have small groups complete the worksheet Sunspot Mapping Grid.
    Divide students into small groups of three. Distribute one copy of the worksheet Sunspot Mapping Grid to each group. Go to the Solar and Heliospheric Observatory (SOHO) Movie Theater website. Select image type: MDI Continuum. Leave the Resolution at 512. Leave the Start and End Dates blank. Enter 20 for Latest n images. Then click search. This will give you near real-time data for the last 20 images taken. Ask each group to select and identify at least one sunspot to track over 4 days. Click the step button to move through the images. Ask: What do you notice as we step through these images? Students should notice that their sunspot or sunspot groups appear to be moving across the surface of the sun. Ask: Do you think the sunspot is moving? Why or why not? Encourage students to observe their sunspot in relation to other sunspots they see. Some students should be able to relate that they think the sun is rotating. Click the step button again to move through the images a second time. Allow students time to plot each point representing the sunspot or sunspot groups they have chosen on their worksheets.

    4. Have students revisit the KWL chart.
    Ask: What new information have we learned from this investigation? Ask students to summarize what they have learned about the sun and solar activity. List the information on the board in column 3 as students volunteer it.

    5. Have students make a math connection.
    Ask: How can you determine the period of rotation of an object with fixed features on its surface? (Rotation can be determined by tracking the fixed features for a number of days.) Distribute a copy of the worksheet Calculate the Sun’s Rotation to each small group. Read through the directions with students and answer any questions they may have. Allow groups ample time to complete the worksheet. Rotate around the room, providing support as needed.

    6. Discuss reasons for apparent motion of sunspots.
    Remind students that sunspots appear to move across the face of the sun over time. Ask groups to list all of the possible reasons that might be responsible for that apparent motion. Then have a whole-class discussion in which each small group shares their list with the class. Possible reasons students may suggest include:

    • Sunspots move across a non-rotating sun.
    • The sun rotates.
    • The Earth moves around the sun, causing sunspots to appear to move.
    • Sunspots appear and disappear in different places, appearing to move.

    Ask students to discuss each of the possible explanations within their small groups and decide which explanation their group thinks is the most likely. Then have a whole-class discussion. Make sure students understand that the correct answer is that the sun rotates. The sunspots stay reasonably stable as they appear to travel across the sun's surface. Sunspots seem to disappear on the righthand side of the sun, then reappear on the lefthand side. Students should observe that sunspots keep a similar shape and stay at the same latitude and move at a constant rate at the same longitudes. The sun has a faster rate of rotation at its equator of about 25 days and a slower rate of rotation at the poles of about 36 days. Ask: What are some possible ways to prove your explanation is correct? (Possible responses: Watch to see if some sunspots move faster than others at the same latitude. Follow sunspots to see if they change latitude as they change longitude. Follow sunspots to see if they move at the same rate and keep a similar shape and stay at the same latitude. Track how far the sunspots appear to move each day. See if they move at a consistent rate or if the rate changes. Pay attention to where the sunspots seem to appear or disappear. Watch for a pattern.)

    Informal Assessment

    Check students' plotting and data. Ask: What did you determine about the apparent movement of sunspots across the surface of the sun? Students should be able to explain that the sun rotates, and how that affects the apparent motion of sunspots.

    Extending the Learning

    Go to the Solar Stormwatch website. Have your students practice citizen science for Solar Stormwatch. Citizen science is the collection of scientific data by individual volunteers who are not professional scientists. Tell students they will help scientists spot explosions on the sun and track them across space to Earth. Students' input will help scientists better understand these potentially dangerous storms and help to forecast their arrival time at Earth.

  • Subjects & Disciplines

    • Informal Education
      • Academic Enrichment
    • Mathematics
      • Geometry
      • Measurement
    • Science
      • Astronomy
      • Space sciences

    Learning Objectives

    Students will:

    • describe the rotation of the sun
    • calculate an average solar rotation rate between 25 and 36 days
    • identify and track sunspots

    Teaching Approach

    • Learning-for-use

    Teaching Methods

    • Brainstorming
    • Discussions
    • Hands-on learning
    • Inquiry
    • Multimedia instruction

    Skills Summary

    This activity targets the following skills:


    National Standards, Principles, and Practices

    NCTM Principles and Standards for School Mathematics

    National Science Education Standards

  • What You’ll Need

    Materials You Provide

    • Pencils
    • Pens

    Required Technology

    • Internet Access: Required
    • Tech Setup: 1 computer per classroom, Projector, Speakers
    • Plug-Ins: Flash

    Physical Space

    • Classroom

    Grouping

    • Small-group instruction

    Other Notes

    You will need to sign up for a free account to take part in the Solar Stormwatch citizen science project. Set up a classroom account before starting this activity.

  • Background Information

    The sun is responsible for all life on Earth; it gives us light and heat. The sun is not a solid body; it is a giant ball of gas made mostly of hydrogen and helium. Energy is produced deep within its core by means of nuclear fusion. Because of the sun's relative proximity to Earth, astronomers can gain important knowledge about other stars by studying our sun. It is the only star close enough to display a corona and a visible surface, which allows for observation of sunspot and solar activity. The sun does not rotate as a solid body because of its gaseous composition. The period of rotation varies from 25 to 35 days depending on the latitude (it is a shorter period at the equator). The surface of the sun is called the photosphere. Sunspots are cooler regions on the sun. They can be very large and are caused by the sun's magnetic field. Sunspots occur where the sun's magnetic field loops up out of the solar surface and cools it slightly, making that section less bright. Complex sunspot groups cause the eruptions of solar flares and can appear to be spectacular loops and prominences.


    Prior Knowledge

    • None

    Recommended Prior Activities


    Vocabulary

    Term Part of Speech Definition Encyclopedic Entry
    heliosphere Noun

    large region around the sun affected by the sun's magnetic field and the solar wind.

    latitude Noun

    distance north or south of the Equator, measured in degrees.

    Encyclopedic Entry: latitude
    longitude Noun

    distance east or west of the prime meridian, measured in degrees.

    Encyclopedic Entry: longitude
    magnetic field Noun

    area around and affected by a magnet or charged particle.

    magnetic storm Noun

    interaction between the Earth's atmosphere and charged particles from solar wind.

    photosphere Noun

    lowest visible layer of a star and the boundary from which the star's diameter is measured.

    solar flare Noun

    explosion in the sun's atmosphere, which releases a burst of energy and charged particles into the solar system.

    solar prominence Noun

    huge eruption of cool gases from the surface of the sun, often shaped like a giant loop.

    solar rotation Noun

    movement of the sun around its axisthe time is variable, but about once every 27 days.

    solar storm Noun

    sudden change in the Earth's magnetosphere, caused by the solar wind interacting with the Earth's magnetic field. Also called a geomagnetic storm.

    sunspot Noun

    dark, cooler area on the surface of the sun that can move, change, and disappear over time.

    For Further Exploration

    Websites

Funder

Lockheed Martin