January 29, 20133rd/4th/5th grade science strand
Focus: Astronomy StandardsGrade 3 Std 4; Grade 5 Std 5
By Rich Hedman
Goals for WorkshopTwo main goals:
To develop in each of you an understanding of the science content.
To encourage each of you to use a student-centered
and data-centered
instructional approach.
Instead of the more traditional teacher-centered approach.
Not in this w
orkshop today
However, the instructional approach is highly teacher-guided.
So I will avoid “telling” you about stars tonight.Instead I will present you with data on stars from
which you can construct your own understanding.When I ask you questions, I am seeking your
ideas and your evidence, not a “right answer”.(although my goal is for you to eventually get there)
I will try to not answer your questions directly, but will seek to have you figure it out yourself.
I encourage you to take the same approach if you teach these lessons to your students.
This student- and data-centered instructional approach is aligned with how people learn science and how scientists engage in their work.
Rules of EngagementBe considerate and respectful in language and
tone.Make sure everyone has a chance to express
their ideas.Try to not steal anyone’s “Aha!” moment by
“telling” them your “answers”—instead ask questions that will guide your group to these ideas. (ask, don’t tell!)
The SciencePart One: Evidence of MotionPart Two: Day & NightPart Three: Star Data Using Stellarium SoftwarePart Four: Stars During One NightPart Five: Stars Over Many Nights, Weeks,
MonthsPart Six: Make and Understand a Star Finder
Evidence of MotionHow do you know
something is moving?Pair-share.To know if something is
moving, we need:An object of interestA reference pointA period of timeAnd: we should
understand our point of view
1st person (personal view) versus 3rd person (objective view)
The SciencePart One: Evidence of MotionPart Two: Day & NightPart Three: Star Data Using Stellarium SoftwarePart Four: Stars During One NightPart Five: Stars Over Many Nights, Weeks,
MonthsPart Six: Make and Understand a Star Finder
Sun & Motion QuestionQuestion: Based on
our ideas of motion, in the 1st person perspective, if you are outside for an hour on a clear day, is the sun moving?
Think quietly about that for a moment.
Share your thoughts.We will come back to
this later…
Observations: Day, Night, & the SunQuestion: What are some observations that
you have about day, night, and the sun?Work with your group to list some of your
observations on the whiteboard.Be prepared to share an observation or two.
Model: Day & NightA model is a coherent set of ideas.What set of ideas could explain the patterns
in day & night you described?With your group, write down a list of
statements about what causes day and night, AND also be able to explain your ideas with the 3-D objects:Earth beach ball, light representing the sun.
Be prepared to share your model.I will capture the model on chart paper.
Sun & Motion Question
Let’s revisit the question: Based on our ideas of motion, in the 1st person perspective, if you are outside on a clear day, is the sun moving?
1st person is the earth-bound view.If your reference point is your local horizon, then
the sun is moving with respect to your horizon.If your reference point is the sun, then the
horizon is moving with respect to the sun.We must have a 3rd person perspective to figure
out which statement is more correct. Which is it?
The SciencePart One: Evidence of MotionPart Two: Day & NightPart Three: Star Data Using Stellarium SoftwarePart Four: Stars During One NightPart Five: Stars Over Many Nights, Weeks,
MonthsPart Six: Make and Understand a Star Finder
Star Motion in SkyNow that we understand how the sun “moves
through the sky”, we need to look at how the stars move.
Thought question: If you were to go outside on a clear night, and watch the stars all night, what would you see? Would the stars move? If so, how, exactly?
Don’t forget our conventions about describing motion.
Share some ideas.
Star Motion DataWe need data to answer the question!We will get this data using the free
astronomy program Stellarium.Stellarium can be downloaded from:
http://www.stellarium.org/Instructions:1.Form into pairs (computer-savvy + computer-
not)2.Get a laptop, power it up.3.Open up Stellarium:
Stellarium Controls—mouse over left side of screen, and bottom of screen.
Set Location here.
Type Sacramento into the search box. Then click on Sacramento, United States.Note: Make sure the red dot is in the right place.
Close Location Window when finished
One way to set Time and Date is here.
You can click on the up and down arrows to adjust the date and time (military time).You can drag the box around so it doesn’t block your view, or just close it.
Click each bottom icon ON and OFF to see what it does.The bottom right controls can speed up or reverse time.
Two final things: 1.Hold down left mouse button, and drag mouse across screen to change your view.2.Use your mouse scroll button to zoom in or out, or use / to zoom in, and \ to zoom out.
The SciencePart One: Evidence of MotionPart Two: Day & NightPart Three: Star Data Using Stellarium SoftwarePart Four: Stars During One NightPart Five: Stars Over Many Nights, Weeks,
MonthsPart Six: Make and Understand a Star Finder
Observations: Stars During 1 NightQuestion: What patterns do you notice in the
motion of stars over a night from Sacramento?
Use Stellarium to take your observations.Start by looking south. Then look east and
west. Then look north.Write the patterns you notice on your
whiteboards.Be prepared to share your observations.
Animations of Stars During 1 NightIf there is time, watch animations of the stars
during 1 night in Sacramento, looking in each direction.
QUESTION: How can these patterns be explained?
Model: Stars During 1 NightA model is a coherent set of ideas.What set of ideas could explain the patterns
you noticed in the motion of stars over a night from Sacramento?
With your group, write down a list of statements about what causes the patterns in the motion of stars, AND also be able to explain your ideas with the 3-D objects:Earth beach ball, light representing the sun,
constellation sheets.Be prepared to share your model.I will capture the model on chart paper.
If Needed: Quick Activity on Star “Motion”
Spin in your chair. Tell me what you see.Make sure to include the direction of motion.Does this remind of you of any observations?Now look up while you spin. Tell me what
you see.Does this remind of you of any observations?
Can you explain this picture with your model?
The SciencePart One: Evidence of MotionPart Two: Day & NightPart Three: Star Data Using Stellarium SoftwarePart Four: Stars During One NightPart Five: Stars Over Many Nights, Weeks,
MonthsPart Six: Make and Understand a Star Finder
Observations: Stars Over Days, Weeks, and MonthsQuestion: What patterns do you notice in the
motion of stars in the sky at the same time of night in Sacramento, over days, weeks, and months?
Use Stellarium to take your observations.Start by looking south. Then look east and west.
Then look north.Write the patterns you notice on your whiteboards.Be prepared to share your observations.
What set of ideas could explain the patterns you noticed in the motion of stars at the same time of night in Sacramento over days, weeks, and months?
With your group, write down a list of statements about what causes the patterns in the motion of stars, AND also be able to explain your ideas with the 3-D objects:Earth beach ball, light representing the sun,
constellation sheets.Be prepared to share your model.I will capture the model on chart paper.
Model: Stars Over Days, Weeks, and Months
Our models can be used to explain:Day and night.The sun’s apparent motion through the sky.The apparent motion of the stars through the
sky: Over one night Over many nights, weeks, and months
Now let’s see if our models can help us understand a common tool, a star finder.
Models of Star Motion in Sky
The SciencePart One: Evidence of MotionPart Two: Day & NightPart Three: Star Data Using Stellarium SoftwarePart Four: Stars During One NightPart Five: Stars Over Many Nights, Weeks,
MonthsPart Six: Make and Understand a Star Finder
Task: Make a Star FinderFollow the instructions. I have a sample for reference.You need the 2 sheets (below), scissors, and tape.
Using the Star FinderWith your group, figure out how to use the
star finder to predict the position of the stars you would see in the sky at 9pm tonight.
Make sure everyone in your group knows how to use the star finder.
Once you are ready, I will test you. I will ask you the name of a constellation from Stellarium.
Understanding the Star FinderWith your group, answer these questions:1.Why are the East and West compass directions reversed?2.Why do we need an oval cut-out, what does this represent?3.Take the “wheel” of stars out and look at it. What does
this represent?4.Explain why there are marks indicating the time of day—
what does that represent physically?5.Explain why there are marks indicating the month and
date—what does that represent physically?6.Could you use this star finder to predict the patterns of
stars you would see in the sky if you lived in Brazil? Explain.
7.Could you use this star finder to predict the patterns of stars you would see in the sky if you lived on the earth’s North Pole? Explain.
California Science Content Standards Addressed:Grade 3 Standards:4. Objects in the sky move in regular and predictable patterns. As a basis for understanding this
concept: A. Students know the patterns of stars stay the same, although they appear to move across
the sky nightly, and different stars can be seen in different seasons. B. Students know the way in which the Moon’s appearance changes during the four-week lunar cycle. C. Students know telescopes magnify the appearance of some distant objects in the sky, including the
Moon and the planets. The number of stars that can be seen through telescopes is dramatically greater than the number that can be seen by the unaided eye.
D. Students know that Earth is one of several planets that orbit the Sun and that the Moon orbits Earth.
E. Students know the position of the Sun in the sky changes during the course of the day and from season to season.
Grade 5 Standards:5. The solar system consists of planets and other bodies that orbit the Sun in predictable
paths. As a basis for understanding this concept: A. Students know the Sun, an average star, is the central and largest body in the solar system and is
composed primarily of hydrogen and helium.B. Students know the solar system includes the planet Earth, the Moon, the Sun, eight other planets
and their satellites, and smaller objects, such as asteroids and comets.C. Students know the path of a planet around the Sun is due to the gravitational attraction
between the Sun and the planet.
Thank YouContact information:
Rich Hedman [email protected]
All files (instructor notes, handouts, PowerPoints, videos) used in this presentation may be downloaded from:
http://saspcsus.pbworks.com