This article provides a brief discussion of the importance of teaching students …
This article provides a brief discussion of the importance of teaching students to analyze data and representations of data as well as two resources that can help teachers implement these strategies into their instruction.
This board game challenges players (ages 10+) to build a spaceship and …
This board game challenges players (ages 10+) to build a spaceship and fly to a black hole. The game provides opportunities for understanding phenomena based on current black hole research. During the game, players will experience the dangers and excitement of a real space mission, and learn about the nature of black holes by launching scientific probes. The game can be played competitively or as a team (instructions are also provided for playing in large groups. Black Hole Explorer consists of: Game Board, Game Rules, Spacecraft Data sheets, Science Briefing Room document, Event cards (28), Probe result cards (12), Energy tokens (140). Game components are available as PDF downloads; dice and game pieces must be provided by the user. NOTE: tokens and cards need to be cut to size from letter-size cardstock.
This collection of activities is based on a weekly series of space …
This collection of activities is based on a weekly series of space science problems distributed to thousands of teachers during the 2009-2010 school year. They were intended for students looking for additional challenges in the math and physical science curriculum in grades 9 through 12. The problems were created to be authentic glimpses of modern science and engineering issues, often involving actual research data. The problems were designed to be one-pagers with a Teachers Guide and Answer Key as a second page. This compact form was deemed very popular by participating teachers.
"Build It Yourself: Satellite!" is an online Flash game hosted on the …
"Build It Yourself: Satellite!" is an online Flash game hosted on the James Webb Space Telescope website. The goal of the game is to explain the decision-making process of satellite design. The user can choose to build a "small," "medium," or "large" astronomy satellite. The user then selects science goals, wavelength, instruments, and optics. The satellite is then launched on the appropriate rocket (shown via an animation). Finally, the user is shown what their satellite might look like, as well as what kind of data it might collect, via examples from similar real-life satellites. Satellites range from small X-ray missions without optics (like the Rossi X-ray Timing Explorer) to large missions with segmented mirrors (like the James Webb Space Telescope).
This is an activity about the moon. Learners will create their own …
This is an activity about the moon. Learners will create their own models of lunar orbiters out of edible or non-edible materials. They determine what tools would be necessary to help us better understand the Moon and plan for a future lunar outpost. Then they incorporate these elements into their models. NASA's Lunar Reconnaissance Orbiter is used as an example of a spacecraft armed with "eyes," "ears," and other tools for exploration. This activity is part of Explore! To the Moon and Beyond! - a resource developed specifically for use in libraries.
This is an lesson about spectrographs. Learners will build and decorate their …
This is an lesson about spectrographs. Learners will build and decorate their own spectrographs using simple materials and holographic diffraction gratings. After building the spectrographs, they observe the spectra of different light sources. Requires advance preparation to spray-paint the inside of the containers black the day before construction. The activity is part of Project Spectra, a science and engineering program for middle-high school students, focusing on how light is used to explore the Solar System.
Students will be asked to evaluate their local community and design and …
Students will be asked to evaluate their local community and design and build a 3-dimensional circular space, building, or facility to meet their town's / city's / state's needs. Requirements: two written paragraphs, blueprints drafted on graph paper, a physical model, a Project Improvement Plan, and self reflection.
8th grade student will apply Newton’s Laws to design, test and evaluate …
8th grade student will apply Newton’s Laws to design, test and evaluate materials to create the most protective helmet for an activity of their choice. Students will use force sensors and Vernier software to analyze the force reduction for their helmets. The culmination of this project is for students to write and present a sales pitch to promote their helmet to their peers at an annual "conference."
This is an assessment activity for the The Cosmic Ray Telescope for …
This is an assessment activity for the The Cosmic Ray Telescope for the Effects of Radiation (CRaTER) educational kit. Learners will make a poster that explains possible origins of cosmic rays, how they affect people, and what protects us here on Earth. Alternately, they will make a poster describing CRaTER’s goal and how it works.
This is a lesson about the Genesis mission. Learners are provided background …
This is a lesson about the Genesis mission. Learners are provided background information about the Genesis mission and the three basic types of solar wind that are being detected by the Genesis Ion Monitor (GIM) and Genesis Electron Monitor (GEM).
This article provides links to six web sites that provide an overview …
This article provides links to six web sites that provide an overview of cause/effect relationships, graphic organizers, and teaching strategies for elementary teachers.
This lesson is about cleanroom technology and accompanies the Genesis mission cleanroom …
This lesson is about cleanroom technology and accompanies the Genesis mission cleanroom video, Cleanroom Technology: NASA Genesis Mission, available on the Genesis outreach Web site. Learners will understand the conditions that are necessary for the assembly of the spacecraft scientific payload. Includes a teacher's guide and students handouts. Video and audio clips are provided. This lesson 2 of 10 from the Dynamic Design: The Cleanroom module - although it can also serve as a stand-alone lesson.
This article features children's literature about weather, climate, and climate change. What’s …
This article features children's literature about weather, climate, and climate change. What’s the difference between weather and climate? How do scientists observe, measure, and predict weather phenomena? How is Earth’s climate changing, and why? This month’s bookshelf will help students develop a solid grasp of weather-related concepts. It will also introduce students to global warming and climate change and inspire them to do what they can to combat the problem.
This article assembles free resources from the Climate Change and the Polar …
This article assembles free resources from the Climate Change and the Polar Regions issue of the Beyond Penguins and Polar Bears cyberzine into a unit outline based on the 5E learning cycle framework. Outlines are provided for Grades K-2 and Grades 3-5.
This series of 12 captioned images depict some of the issues facing …
This series of 12 captioned images depict some of the issues facing Earth’s fresh water supply, such as pollution, drought, and glacial retreat. The Climate Kids website is a NASA education resource featuring articles, videos, images and games focused on the science of climate change.
NASA scientists, using several NASA Earth observing satellites, continue to seek answers …
NASA scientists, using several NASA Earth observing satellites, continue to seek answers to questions related to climate change. Several of those questions, focused on such topics as the effect of clouds and aerosols, and the role of the sun's cycles and the carbon cycle, are included in this article. Images of the respective satellites involved in the research are shown. This article is part of the Climate Kids website, a NASA education resource featuring articles, videos, images and games focused on the science of climate change.
Once students demonstrate proficiency in VEX Robotics, it is time for the …
Once students demonstrate proficiency in VEX Robotics, it is time for the application of knowledge in Real World Situations.
Students will learn Automated Straightening, Studying Variables in code, how to run true/false statements, setting parameters in a sonar function, implementing functions with parameters in programs, and how to encapsulate discrete behaviors in functions.
Students then go on to work on straightening statements using if/then, how to change values which the Vex Sonar Sensor measures in, and explore values associated with the sonar sensor when it receives an echo and when it does not.
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