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Leaners will grow a sugar crystal and learn how this relates to growing protein crystals in space. The lack of gravity allows scientists on the space station to grow big, almost perfect crystals, which are used to help design new medicines. This is... (View More) science activity 2 of 2 found in the ISS L.A.B.S. Educator Resource Guide. (View Less)
Learners will investigate how to build a space suit that keeps astronauts cool. This is technology activity 1 of 2 found in the ISS L.A.B.S. Educator Resource Guide.
This is a lesson about the robotic arm on the International Space Station. Learners will build a robotic arm to grapple (grab onto) a spacecraft and then use it to grapple different classroom objects. This is technology activity 2 of 2 found in the... (View More) ISS L.A.B.S. Educator Resource Guide. (View Less)
Learners will construct two different types of trusses to develop an understanding of engineering design for truss structures and the role of shapes in the strength of structures. For optimum completion - this activity should span 3 class periods to... (View More) allow the glue on the structures to dry. This is engineering activity 1 of 2 found in the ISS L.A.B.S. Educator Resource Guide. (View Less)
Learners will investigate the relationship between mass, speed, velocity, and kinetic energy in order to select the best material to be used on a space suit. They will apply an engineering design test procedure to determine impact strength of... (View More) various materials. This is engineering activity 2 of 2 found in the ISS L.A.B.S. Educator Resource Guide. (View Less)
This is an activity about using solar arrays to provide power to the space station. Learners will solve a scenario-based problem by calculating surface areas and determining the amount of power or electricity the solar arrays can create. This is... (View More) mathematics activity 1 of 2 found in the ISS L.A.B.S. Educator Resource Guide. (View Less)
Learners will investigate the relationship between speed, distance, and orbits as they investigate how quickly the International Space Station (ISS) can travel to take a picture of an erupting volcano. This is mathematics activity 2 of 2 found in... (View More) the ISS L.A.B.S. Educator Resource Guide. (View Less)
This curriculum allows middle school and high school students to use authentic NASA data from five satellite missions (Aqua, Aura, ICESat, Landsat, and Terra) to engage in a systems approach to climate change. The curriculum features four modules:... (View More) 1. Introduction (Eco-Schools framework, MY NASA DATA, and Carbon cycle), 2. Factors that Influence Temperature (Surface temperature, CO2, Ice-albedo, Land changes, Deforestation and urbanization), 3. How Climate Change Affects Natural and Human Systems (Arctic sea-ice and polar bear habitat, Sea surface temperature and coral bleaching, Trends in spring arrival, DBH, Dendrolchronology and biospheric data, Heat waves, Patterns in precipitation, Sea-level rise), and 4. Renewable Energy (Solar and Wind). Lessons contain technology tips, supplements, student worksheets, answer keys and appendices. (View Less)
Students will use observation to make their own geologic map of the Moon’s Copernicus Crater. The students will identify crater features in a photogeologic image and use those observations to color their map with the appropriate geologic units.
In this engineering challenge, student teams are introduced to the engineering design process, and then construct and test an earthquake-resistant structure. The lesson plan includes teacher support, student worksheets, multimedia assets, and links... (View More) for students to conduct Web-based investigations. Authentic assessments, a multiple choice test, and rubrics are included. This is an optional extension activity associated with the resource, Flight Mission Challenge: Improving Earthquake Monitoring, a 3 part, multiple-day Earth science and engineering investigation. (View Less)