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Arizona State University (ASU)  
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During this immersive virtual field trip to the Grand Canyon, learners investigate geologic records to discover what the rocks reveal about life and environments of the past. They will then apply those same investigative techniques to the search for... (View More)

Explore simulated remote sensing techniques to observe a clay model of a planet. Observations are done from the perspective of a telescope at Earth’s surface, a telescope above Earth’s atmosphere, and from closer proximity to the planet in a... (View More)

Students analyze and interpret the accompanying large-format images of Mars taken by NASA’s Mars Thermal Emission Imaging System (THEMIS) camera. The analysis involves identifying geologic features, calibrating the size of those features, and... (View More)

Students use the research topic questions generated in the earlier lesson entitled, “Mars Image Analysis,” to refine testable questions and develop hypotheses. The lesson is part of the Mars Education Program series; it models scientific inquiry... (View More)

Keywords: NSTA2013; MSIP
Audience: Elementary school, Middle school, High school
Materials Cost: Free

Beginning with an online interactive exploration of Karijini Gorge in Australia and Oak Creek Canyon in Sedona, AZ, learners gather geologic evidence regarding the formation of the red rocks found in each. They then apply that information to support... (View More)

Using an online interactive platform, learners will explore our solar system from the perspective of the Sun. They will observe the motion of different worlds to determine their location in the solar system. Then they will launch probes to search... (View More)

Common materials such as sand, gravel, pebbles, shells, etc. are used to represent crustal materials from an unknown planet. Students begin by sorting, classifying, and making observations about the sample. Using that information, they must then... (View More)

Students combine science and systems engineering to develop a mission to search for life in our solar system. The mission must meet budgetary, mass and power constraints while still producing significant science. An extensive set of "equipment... (View More)

In this game, students use the accompanying "playing cards" to plan a mission to Mars. The mission must produce significant science returns while also meeting several constraints such as budget, mass and power. The lesson is part of the Mars... (View More)

Learners will simulate the challenges in communications that engineers face when operating a Mars rover from Earth. They will participate as part of a rover team to design and execute a series of commands that will guide a rover (comprised of four... (View More)

Audience: Elementary school, Middle school, High school
Materials Cost: Free
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