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This video features NASA scientist Claire Parkinson explaining atmospheric carbon dioxide levels seen in measurements collected at the Mauna Loa observatory since 1958 and recent global model output. The seasonal cycle of plants on land and in the... (View More) ocean explains the annual rise and fall of carbon dioxide. The long-term trend toward more CO2 in our atmosphere is largely due to human activity. We are putting CO2 into the air faster than nature can remove it. (View Less)
This activity includes a presentation with links to videos about scientists and engineers working with NASA's Global Precipitation Measurement Mission (from the Faces of GPM series), as well as other STEM careers videos, followed by a number of... (View More) links to online career resources. It is designed to be used by students working at their own pace, choosing which videos and links they are interested in watching and exploring, but could also be used with a larger group. As part of the activity, students identify personal skills and abilities related to career interests and develop a career goal. Includes a student capture sheet with guiding questions. (View Less)
This series of ten lessons has been developed to teach students about local and global water issues. They are based on NASA’s Global Precipitation Measurement (GPM) Mission. The activities are done largely outdoors and include scientific data... (View More) collection and analysis and integrate technology. Many of the lessons involve data collected based on protocols from the GLOBE Program. Each lesson is designed to take one hour; the lessons build on each other, but can also be used independently. Each lesson topic includes a lesson plan, PowerPoint presentation, student capture sheet and capture sheet answer guide. (View Less)
Learners will build a magnetometer, an instrument that can measure slight changes in Earth’s magnetic field that are caused by solar storms. This activity is from the DIY Sun Science app and is for ages 13 and up.
If you’ve ever seen a picture of a solar eclipse, you may have noticed that the Moon comes very close to covering the entire Sun. Learners will use a coin and a plate to investigate why the Sun and Moon look like they’re the same size, though... (View More) the Sun is much bigger. This activity is from the DIY Sun Science app and is for ages 7 and up. (View Less)
Learners will make a Sun tracker to explore how ancient civilizations around the world studied the Sun. This activity is from the DIY Sun Science app and is for ages 7 and up. It requires a bright sunny day.