You are hereHome ›
Now showing results 1-5 of 5
This is a game about planning what to take on a space trip to Mars. Learners will decide on the appropriateness of items to take on a long trip to Mars and take into consideration the effects of zero gravity, limited electrical power, etc.
This is a game about the formation of the solar system. Learners dynamically engage in modeling the growth of asteroids from specks of matter. Similar to tag, the children run around, have fun, and burn off energy. Different from tag, there is... (View More) science involved! The end of activity debriefing discusses strengths and limits of the model. Note the setting for this activity should be large and open where students can run. (View Less)
In this activity, learners work in teams to assess environmental conditions, resources, and scientific relevance of different locations on the Moon using data collected from previous lunar missions. Each team selects the site they believe has the... (View More) best potential for a future lunar outpost. The teams debate their conclusions and work together to determine which single site to recommend to NASA. This activity takes approximately 1.5 hours, and can be divided into parts. Learners should be familiar with NASA's LRO Mission and the lunar environment through other Explore! To the Moon and Beyond! activities. These activities were developed specifically for use in libraries. (View Less)
With this resource, users can control the ground-based MicroObservatory telescopes from their computer and download their images themselves, with no human intervention in the loop. Users can access the Observing With NASA "Control Telescope" web... (View More) interface at anytime. The telescopes are weatherproof and do not require a dome for protection, and the "Control Telescope" software automatically lets users know which targets are up that night. Even first-time observers can control the instrument without dependence on a telescope operator or other outside experts. (View Less)
This is an activity about measuring angular size and understanding the solar and lunar proportions that result in solar eclipses. Learners will use triangles and proportions to create a shoebox eclipse simulator. They will then apply what they learn... (View More) about angular size to predict the diameter and distance of one object that can be eclipsed by another. They will also complete three journal assignments to record observations and conceptual understanding. This activity derives from those demonstrated in the NASA CONNECT television series episode, titled Path of Totality. (View Less)