Curated OER
Extra Terrestial Excursions
Fourth graders determine how long it would take to fly to each of the planets in the solar system. They do two calculations: one, if they were using conventional jet, the other if they were using the fastest spacecraft possible.
NASA
The Invisible Sun: How Hot Is It?
It's getting hot in here! The first in a series of six lessons has learners model nuclear fusion with a simple lab investigation. Groups collect data and analyze results, comparing their models to the actual process along the way.
Curated OER
Nine Planets
What are characteristics of a planet? With this plan, learners investigate the characteristics of the planets in our solar system. They gather research of the nine planets by using the Internet and other research tools. Then they create...
Curated OER
Planetary Orbits
Students explore space science by completing a solar system identification worksheet. In this planets lesson, students discuss the different planets in our star system and identify their traits. Students complete an orbital system...
Curated OER
Meteor, Meteoroid, Meteorite: What's the Difference?
Students explore the difference between a meteor, meteorite and meteoroid. In this space science lesson, students first read information about these space bodies. Students make Comet Cookies and use them to model a meteor shower with a...
Curated OER
Earth
Fourth graders engage in a study of the solar system. The teacher constructs an outside model of it. They walk through it making constructive observations. Students conduct a class discussion about the solar system and planets. They...
Curated OER
"Space" Investigations
Sixth graders understand the patterns of change observable on Earth as a result of the movement of the different bodies in the solar system. They identify the physical characteristics of the different components of the solar system.
Journey Through the Universe
Going through a Phase
Ignore the full moon, it's just a phase. Young scholars observe and record the moon during a full cycle before learning to predict future phases. Then the instructor leads a discussion on the other solar system objects that...
Columbus City Schools
Moon Phase Mania
Now you see it, now you don't. Our moon seems to pull a disappearing act from time to time—but why? Take your seventh grade scientists above and beyond to discover the truth about the moon and the role it plays in Earth's little...
Space Awareness
History of the Universe
Your pupils may believe that you and their parents are the oldest things in the universe, but surprise! There are elements of the universe that are even older. Elementary scientists create a class timeline to demonstrate the...
Chicago Botanic Garden
What Can Tree Rings Tell Us About Climate?
Tree rings are slightly thicker on the south side of the tree because it receives more sunlight. Part two in a series of five lessons helps learners analyze tree rings to determine the environmental conditions that caused size...
University of Colorado
Planetary Distances on the Playground
Earth is 149,600,000 km, or 92,957,130.4 miles, from the sun. Young astronauts create an interactive model to learn the distances between planets. Nine groups, each representing a different planet, are spread around at class-calculated...
University of Colorado
Looking Inside Planets
All of the gas giant's atmospheres consist of hydrogen and helium, the same gases that make up all stars. The third in a series of 22, the activity challenges pupils to make scale models of the interiors of planets in order to...
University of Colorado
Terra Bagga
One way to identify possible volcanic activity on other planets is by testing the planet for magnetism. A science lesson plan begins with pupils constructing their own planet from a dead battery, magnets, paper, and tape before...
McGraw Hill
Orbital Velocity Interactive
Why does it take Pluto 90,000 days to orbit the sun, but it only takes Mercury 88 days? An interactive lesson helps pupils find a connection between the speed of orbit and distance a planet is from the sun. The simulation allows for...
Journey Through the Universe
Where to Look For Life?
Every year we discover new planets including more than 1,000 in 2016 alone. Will we ever find life on another planet? The instructional activity includes two activities to help scholars understand this concept. First, they analyze the...
Curated OER
What's "In" There: A Study of the Inner Planets - Mercury, Venus, Earth, and Mars
First graders identify and explore the four inner planets. In this planet science lesson, 1st graders watch a PowerPoint about the planets. Students read the book Our Solar System and discuss the inner planets. Students create a book...
Curated OER
What's "Out" There?
First graders investigate the five outer planets. In this space science lesson, 1st graders read the book Our Solar System and identify the five outer planets. Students create a booklet and write about outer planets.
Curated OER
Changing Faces: A Study of Solar and Planetary Rotation Rates
Students determine rotation rates of a variety of solar system objects using images and the Internet.
Curated OER
Warming the Earth
First graders investigate how the sun warms the Earth and examine the rotation of the Earth and the sun. They create an illustration of the sun, examine a solar system model, and listen to the book "The Sun: Our Nearest Star." They also...
Curated OER
Planets an Introduction
Fourth graders investigate one planet, enter information into a database, and print the database sorting for each of the attributes.
Curated OER
Scale Models to Planet Size
Young scholars consider the comparative sizes of the planets in the solar system. In this scale lesson, students select balls of different sizes to represent the planets in the solar system.
Curated OER
Star Systems
Students study a star system and see how the planets move around stars. In this star system lesson students complete an activity and see what an eclipse is.
PHET
The Dynamic Nature of the Sun
In this second lesson plan of the series, pupils learn to observe similarities and differences in photos of the sun and record them in a Venn diagram. Then, small groups practice the same skill on unique images before presenting...