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This 12-page educational comic book introduces readers to the Global Precipitation Measurement (GPM) mission. Using the Japanese anime art style, the comic book explains the satellite technology and the mission goals and applications. Supplemental... (View More) materials to support the story include an overview of the GPM mission, a description of the satellite and its instruments, examples of the data it collects, descriptions of some of the constellation partners, and a glossary of science terms used in the comic. Links are provided to additional related resources, including a template for learners to create their own comic. The Japanese anime/manga style of art was chosen because the GPM mission is a collaboration between NASA and JAXA, the Japan Aerospace Exploration Agency. (View Less)
The lithograph features illustrations, statistics and science goals of the James Webb Space Telescope. The accompanying classroom activity prompts students to use the images and text to generate questions about the telescope. Students then research... (View More) those questions on the Internet and present their findings. (View Less)
The MISSIONMaker program uses art and the making experience to investigate NASA mission design, engineering and space exploration. Using common materials, students build a rover that incorporates six simple machines. The building instructions... (View More) include design challenges, background information and examples of how NASA spacecraft incorporate and use those same simple machines. The lesson includes step-by-step instructions, templates, explanatory YouTube videos, and additional related resources. (View Less)
This multi-phased learning package progresses from guided engineering to an open mission-design challenge. Each step is scaffolded and includes easy-to-implement teaching tools, lessons and art activities. Learners, working in collaborative teams,... (View More) build an O-Rex spacecraft model. The building process incorporates inventing, designing and engineering- leading to a deeper understanding of NASA mission work. A leader guide, instructions, templates and a YouTube video are included and accessed through the Related & Supplemental Resources. (View Less)
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) fly-by, an orbit and a landing. This activity illustrates the integration between science, engineering, technology and teamwork. The lesson is part of the Mars Education Program series; it models scientific inquiry using the 5E instructional model and includes teacher notes and vocabulary. Next Generation Science Standards are listed. (View Less)
See how NASA is using a rolling spheres lightning protection system to expand the cone of safety currently used on Launch Complex 39. NASA eClips™ are short, relevant educational video segments. These videos inspire and engage students, helping... (View More) them see real world connections. The Real World series of NASA eClips™ connects classroom mathematics to 21st century careers and innovations and are designed for students to develop an appreciation for mathematics through real-world problem-solving. (View Less)
In this video clip, see how NASA measures soil moisture from space with the Soil Moisture Active Passive Mission (SMAP). Learn to calculate soil moisture in your own backyard and discover the real world applications for this data. NASA eClips™ are... (View More) short, relevant educational video segments. These videos inspire and engage students, helping them see real world connections. The Real World series of NASA eClips™ connects classroom mathematics to 21st century careers and innovations and are designed for students to develop an appreciation for mathematics through real-world problem-solving. (View Less)
NuSTAR has a 10-meter rigid mast that separates the optics from the detector. Inspired by this, students will design, test, and build a lightweight mast 1 meter tall that can fully support the weight of a typical hardcover textbook (~2 kg). The... (View More) footprint of the mast must be no larger than 11" x 14". This activity is from the NuSTAR Educators Guide: X-Rays on Earth and from Space, which focuses on the science and engineering design of NASA's NuSTAR mission. The guide includes a standards matrix, assessment rubrics, instructor background materials, and student handouts. (View Less)
In this lesson, students participate in a skit presenting a mock-up of a planetary surface rover they designed. Students will be able to: demonstrate their knowledge of Mars and rovers by presenting their team skit; present their rover, its... (View More) requirements and features to the class; answer questions asked by the class based on research conducted during the unit; incorporate feedback from others and ideas from other presentations into student work. The lesson plan has a number of appendices, including: standards alignment, essential question, and exit ticket. This is Lesson 15 of the middle school version of the 6-week Mars Rover Celebration curriculum. (View Less)
In this lesson, students will design a planetary surface rover to conduct a planetary surface investigation. It uses the 5E learning cycle and is designed around an essential question: How will creating a prototype of your rover help you prepare for... (View More) the Mars Rover Celebration? The lesson objectives are to: learn about scientific careers to gain a better understanding of a sampling of careers that have contributed to designing and developing Curiosity; draw a detailed, final-design sketch/diagram of the rover that will be built; identify missions, requirements and features of the rover using labels and captions when necessary. A number of appendices are provided, including standards alignment. This is Lesson 12 of the middle school version of the 6-week Mars Rover Celebration curriculum. (View Less)