Laboratory for Atmospheric and Space Physics
Science at 100,000 Feet
Take your class up, up, and away with an engaging weather balloon simulation! Individuals get hands-on experience in creating and launching their own airborne labs to study how temperature and pressure affect substances at 100,000 feet.
Laboratory for Atmospheric and Space Physics
The Solar Wind Tunnel
The winds of change are blowing in our very own solar system! But what makes some heavenly bodies more affected by solar winds than others? Pupils discover the concept of magnetic forces at work in space in this attractive interactive,...
Laboratory for Atmospheric and Space Physics
Orbit Simulator
Researchers think they have evidence of a new planet deep in our solar system that is the size of Neptune and orbits the sun far beyond Pluto. The orbit simulator shows the orbits of our well-known planets, as well as Pluto and the comet...
Laboratory for Atmospheric and Space Physics
Polar Vortex Interactive
An interactive lesson places pupils as scientists who must learn why the ozone layer is being destroyed by analyzing the data from multiple satellites. The first analysis shows how UV is related to the ozone cycle. The second...
Laboratory for Atmospheric and Space Physics
Star Light, Star Bright
Star light, star bright, first star I see ... wait a minute, where did the star go? Scholars complete a simulation that measures the brightness of a distant star as another object passes in front of it. Learners move the passing object...
Laboratory for Atmospheric and Space Physics
Explore Saturn and Titan with Spectral Data
Titan is Saturn's largest moon and has its own atmosphere. An attention-grabbing tutorial allows learners to analyze the spectrum of Saturn and Titan to determine their elemental compositions. Scholars compare a known element's spectrum...
Laboratory for Atmospheric and Space Physics
Goldilocks and the Three Planets
Venus is the second brightest object in the night sky after the moon. Here is an interesting lesson that explores three planets — Venus, Earth, and Mars — specifically their surfaces and atmospheres. Through an analysis of their spectra,...
Laboratory for Atmospheric and Space Physics
Features of the Sun
An engaging tutorial teaches all about the sun. Learners see its different layers, explore the sun using different filters, and read about its different features. They then choose one feature to research and explore further.
Laboratory for Atmospheric and Space Physics
Marvelous Martian Mineralogy
Believe it or not ... martian soil does have nutrients needed for plants to survive! An out-of-this-world tutorial moves scholars through an analysis of martian soil to determine its chemical make-up. Pupils analyze reflectivity of...
Laboratory for Atmospheric and Space Physics
Where Are We Going?
Come take a ride on the space bus! Scholars go on an imaginary trip to pick up their peers from the inner and outer planets while reinforcing math skills. First, learners round decimals to identify each planets' distance from Earth....
Laboratory for Atmospheric and Space Physics
A Classroom Solar System
Create a scaled model of our solar system in your classroom! Scholars work collaboratively to build paper mache planets and hang them in their proper position to showcase each planet's location in the solar system.
Laboratory for Atmospheric and Space Physics
Planetary Distances on the Playground
There's no need to stay inside; get out of the classroom and create a scaled map of the solar system on your playground field! In collaborative groups, scholars identify the distance between the sun and other planets, place planet...
Laboratory for Atmospheric and Space Physics
Looking to the Future
New Horizons set forth on a mission to Pluto in 2006. Ten years later, the spacecraft is still on its way. Here, enthusiastic scholars predict what they will be like—likes, dislikes, hobbies, etc.—when New Horizons arrives at its...
Laboratory for Atmospheric and Space Physics
Growing Up With A Mission
New Horizons began its journey to Pluto in 2006. Ten years later, it continues its mission. In that time, scholars have surely grown, but how much more will they grow by the time New Horizons reaches its destination? Find out with an...
Laboratory for Atmospheric and Space Physics
Charting the Progress of New Horizons
In 2006, New Horizons began its mission to fly to Pluto. As it continues its journey, scholars track its progress with the help of an informative website, all the while reinforcing measurement concepts with the construction of a scaled...
Laboratory for Atmospheric and Space Physics
Space Travel Guide
Looking to take a trip? Why not go to space? Here, scholars take on the role as travel agent to create a guide to their favorite planet including travel tips and sightseeing recommendations.
Laboratory for Atmospheric and Space Physics
The Planets and Scale
Scholars gain an insight into the relative size of planets and distance between inner and outer planets with the help of informational text, a data table, and a series of four questions.
Laboratory for Atmospheric and Space Physics
Jupiter’s Relative Size
How do you properly illustrate the extreme size difference between two planets—Earth and Jupiter? With the help of jellybeans, of course! Create a scale model of Jupiter's mass compared to Earth using a fishbowl, 1,400 beans, and a dixie...