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The four lessons in this unit build toward a student understanding of each component of the energy budget formula - and how the contribution of each component changes due to location and time of year. In order, the four lessons consist of: deriving... (View More) the formula for Earth’s energy budget, analyzing data from NASA’s CERES instrument, learning to code using the RStudio program, and using RStudio to explore and evaluate the energy budgets of specific locations and seasons. The unit includes a pre/post test; each lesson follows the 5E model and contains worksheets with answer keys. (View Less)
Hear from a NASA scientist and a NASA engineer as they describe their roles in the design and development of one aspect of the James Webb Space Telescope. The video reveals the importance of collaboration in continually moving exploration forward.... (View More) NASA eClips™ Launchpad video segments, designed for grades 9-12, support project-based and problem-based learning experiences in science, mathematics, and career and technical education classrooms. (View Less)
Materials Cost: Free per student
Students participate in a series of activities to discover how astronomers use computers to create images and understand data. No programming experience is required; students will use pencilcode.net to complete such activities as creating a color,... (View More) exploring filters and color-shifting, and creating individual images of star-forming regions. These activities demonstrate a real world application of science, technology and art. (View Less)
Using the 5E instructional model, students discover the value of using color maps to visualize data. The activity requires students to create a color map of the ozone hole from Dobson data values derived from the Aura satellite. Students then... (View More) interpret that map and compare and evaluate different color scales. Note that this is the Spanish version of Exploring Color Maps: Using Stratospheric Ozone Data. (View Less)
Through the use of the 5E instructional model, students discover the value of using color maps to visualize data. The activity requires students to create a color map of the ozone hole from Dobson data values derived from the Aura satellite.... (View More) Students then interpret that map and compare and evaluate different color scales. (View Less)
This worksheet introduces students to the Aura satellite and its Ozone Monitoring Instrument (OMI). Students are asked to visit the Aura website and examine OMI data visualizations to learn about emissions of atmospheric gases such as sulfur... (View More) dioxide, nitrogen oxide and nitrogen dioxide. Students gain experience interpreting OMI data visualizations and are asked to consider implications for climate and human health. (View Less)
This activity uses an episode of poor air quality over the Midwest and Eastern seaboard to engage students in an exploration of the collection, comparison, analysis and utilization of air quality data. With the aid of a camera, the EPA website and... (View More) Google Earth, students will determine local visibility. Students will also interpret images taken with the Moderate Resolution Imaging Spectroradiometer (MODIS) instrument aboard both the Terra and Aqua satellites to distinguish between three aerosols-smoke, dust and haze. Then students will then find online satellite images of the local area to determine aerosol types and possible sources. Four lesson extensions are included. This lesson uses the 5E instructional model. (View Less)
This activity uses rain and flood events in the Midwest to engage students in an exploration of the collection, comparison, analysis and utilization of rainfall data. Students will access online precipitation data from both a ground-based station... (View More) (the Community Collaborative Rain Hail and Snow Network (CoCoRaHS) network) and a satellite (the Tropical Rainfall Measuring Mission (TRMM)). Explicit instructions are provided to allow students to graph, map and analyze that data. Instructions are also provided for setting up a school-based rain gauge to gather local rainfall data for analysis. (View Less)
Through a series of interactive multimedia activities, animations, videos, and online lessons, students develop an understanding of permafrost and its connections to climate change. NASA data from space, suborbital, and ground platforms are... (View More) included, along with tutorials on using related data analysis tools such as Google Earth, ImageJ, and NASA’s GIOVANNI. An indigenous knowledge database is also included as a resource. (View Less)
Designed for use in the high school classroom, this curriculum uses Earth system data, models, and resources from five NASA missions (Aqua, Aura, ICESat, Landsat, and Terra) to engage students in a systems approach to climate change. The curriculum... (View More) consists of 21 lessons divided into four modules: 1. Introduction to Eco-Schools USA and NASA data. 2. Factors That Influence Temperature, 3. How Climate Change Affects Natural and Human Systems, and 4. Renewable Energy and a Call to Action. Each lessons provides technology tips, supplements, student worksheets, answer keys and appendices. (View Less)