NASA
Development of a Model: Analyzing Elemental Abundance
How do scientists identify which elements originate from meteorites? Scholars learn about a sample of material found in a remote location, analyzing the sample to determine if it might be from Earth or not. They study elements, isotopes,...
California Academy of Science
Kinesthetic Astronomy: Earth's Rotation
After completing the activity, "Kinesthetic Astronomy: The Meaning of a Year," zoom in on Earth's rotation using the same simulation setup and this outline. Each class member dons a map of the Western Hemisphere and plays the part of...
101 Questions
Neptune
Examine an innovative approach to a large-scale model. Pupils across the state of Maine teamed up to create a model of the solar system that spans 40 miles. Put thinking skills to work within your classes as they make the calculations to...
Curated OER
The Magic School Bus Lost in Space
Students identify the planets by making two models of the Solar System. They create a model that shows the order of the planets and a model that shows the planets sizes as compared to one another. They may write about the planet they...
Curated OER
Observations From the Past
Ninth graders explore direct and indirect evidence. In this astronomy lesson, 9th graders investigate the contribution of early astronomers to their field. They create a model of the solar system.
Curated OER
Astronomy
Students brainstorm about what they know about the solar system. They study a planetary fact sheet and create a Venn Diagram with the information. They work in groups to examine the names of the planets and information regarding each of...
Curated OER
Space Exploration
High schoolers explore different planets of our solar system. Students gather specific information on each of the planets. High schoolers choose suitable planet for colonization.
Curated OER
Celestial Motions
Ninth graders complete a unit of lessons on the history of our knowledge of celestial objects. They conduct Internet research, plot the motion of a planet, construct a model of the sun's apparent motions, and create diagrams of the solar...
Curated OER
An Electron's Address
Where does an electron reside? Chemistry scholars determine an electron's "address," that is, what orbital it can be found in. This resource is both instructional and practical, providing a thorough explanation of energy levels and...
Curated OER
The Ellipse
This is a practical sheet with the instructions to draw a set of ellipses. After following the diagrams, there are ten questions to complete, with calculations expected for alternate orbits and comparisons related to actual planets in...
Curated OER
Solar System Planet Research
In this space science instructional activity, students collect data that includes information in a chart or graph to display in a group. They identify and describe various planet features of a specific planet of choice. Students write...
Curated OER
Toilet Paper Solar System
Students create a model of the distances of the planets in the solar system using sheets of toilet paper and markers. Generally accepted orbital parameters are applied.
Curated OER
Pioneers of Space
Students explore how to use natural resources in the next millenium. Students create a KWL chart and then research information on our solar systsem, natural resources, and environments. Students build a model of a future community and...
Curated OER
Classroom Planetarium
Students work in groups to create the planets of the solar system. In this planets lesson, students create a hanging solar system taking into account the size, shape and position of the planets. Students discuss the gravity...
University of Colorado
The Jovian System: A Scale Model
Jupiter has 67 moons! As the seventh in a series of 22, the exercise shows learners the size and scale of Jupiter and its Galilean moons through a model. They then arrange the model to show how probes orbited and gathered data.
Curated OER
Junior Solar Sprint Series: Gears and Drive Belts
Activate middle schoolers' minds with this physical science activity. Learners vary the diameter of gears and the number of teeth on them to find how energy output is affected. This writeup features well-developed background...
Science 4 Inquiry
The Impact of the Sun and Moon on Tides
In 150 BC, Seleucus of Seleucia theorized that the moon causes the tides. Scholars learn about what causes tides by studying the interactions of gravity between the sun, moon, and Earth. They use technology to formalize otherwise...
Curated OER
Two Views of the Universe
Students build the two models of the universe created by Aristotle and Copernicus. They compare and contrast the two universes. They create hypothesis on how each model functions.
Curated OER
Earth Moon Scaling
A wonderful lesson incorporating math and physics skills along with specific details about the planetary bodies. The cross-curricular approach makes for a valid activity to challenge multiple ages and abilities. Your class could work in...
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...
Curated OER
Make a Comet Model and Eat It!
Students construct a comet model based on procedure provided. In this space science lesson, students compare the physical properties of comets to the models they made. They record their observations and share them with the class.
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
Inner Planets
Students create a booklet about the inner planets after researching the characteristics of each planet. Students research the following items for each planet: moons, size, rotation, orbit, atmosphere, an interesting fact. Their final...
Curated OER
Planetary Problem Solving
Students create their own planet. They determine its diameter, density, composition, mass and orbit. Students create a list of elements necessary to sustain human life. They present their model to the class.