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This is an activity about how much atmospheric pressure is needed on Mars to maintain surface water and why it does not have surface water today. Learners will use a computer interactive to learn about Mars past and present before exploring the... (View More) pressure and greenhouse strength needed for Mars to have a watery surface as it had in the past. This lesson is part of Project Spectra, a science and engineering education program focusing on how light is used to explore the Solar System. (View Less)
This is an activity about the atmospheric conditions (greenhouse strength, atmospheric thickness) Mars needs to maintain surface water. Learners will use a computer interactive to learn about Mars past and present before exploring the pressure and... (View More) greenhouse strength needed for Mars to have a watery surface as it had in the past. This lesson is part of Project Spectra, a science and engineering education program focusing on how light is used to explore the Solar System. (View Less)
This activity allows participants to build a paper model of the GPM Core Observatory and learn about the technology the satellite uses to measure precipitation from space. Directions explain how to cut, fold and glue the individual pieces together... (View More) to make the model. The accompanying information sheet has details about the systems in the satellite including the Dual-frequency Precipitation Radar (DPR), the GPM Microwave Imager (GMI), the High Gain Antenna, avionics and star trackers, propulsion system and solar array, as well as a math connection and additional engineering challenges. (View Less)
These guides showcase education and public outreach resources from across more than 20 NASA astrophysics missions and programs. The twelve guides - one for each month - contain a science topic, an interpretive story, a sky object to view with... (View More) finding charts, hands-on activities, and connections to NASA science. The guides are modular, so that educators can use the portions that are the most useful for their audiences/events. Following is the theme for each month: January - Betelgeuse, February - Orion Nebula, March - Pleiades, April - Pollux; May - Hubble Deep Field, June - Hercules Cluster, July - Ring Nebula & Veil Nebula, August - The Search for Habitable Worlds, September - Milky Way Galaxy, October - Upsilon Andromedae, November - Andromeda Galaxy, and December - Crab Nebula. (View Less)
This is an activity about the Moon's influence on Earth. Learners think like a scientist — with reasoning skills and a healthy amount of skepticism — to sort puzzle pieces containing statements about the Moon into two images. The "Far-out Far... (View More) Side" has incorrect statements about the Moon (urban myths), and "True-Blue Blue Moon" has true facts about the Moon’s influence on Earth and life. This activity is part of Explore! Marvel Moon. (View Less)
Learners use a Styrofoam ball, sunlight, and the motions of their bodies to model the Moon's phases outdoors. An extension is to have children predict future Moon phases. This activity is part of Explore! Marvel Moon.
This is an activity about the way the moon interacts with sunlight. Learners consider a ball, wrapped in aluminum foil, and experiment with a flashlight to make it appear bright. The children compare the foil-wrapped ball to a Moon globe and... (View More) discover that the Moon reflects very little of the light the falls on it, but still appears bright. The children construct their own globe of the Moon to take home with them by gluing a map template onto a tennis-ball. This activity is most effective when conducted in a dark area, such as outdoors at night or in a darkened room. This activity is part of Explore! Marvel Moon. (View Less)
This is a mini comic book about cosmic rays. Learners will construct the comic book and then read about cosmic rays, their effect, and how the Lunar Reconnaissance Orbiter's Cosmic Ray Telescope for the Effects of Radiation (CRaTER) detects them.
In this lesson, students imagine Mars to be a future vacation destination, and will need to encourage people to come and visit. Students will create a scripted travel video or commercial, or construct a brochure or website to convince people to... (View More) visit a fictitious base on Mars. This lesson is from “Red Planet: Read, Write, Explore!” which uses literacy, art, and creative expression as a vehicle for learning about Mars science and exploration. Includes alignment to Common Core State Standards (CCSS) for English Language Arts. (View Less)
This lesson introduces students to Mars’ history through research and discussion. Students read about the history of Mars, Mars observing, and exploration with telescopes and robotic spacecraft. After learning about Mars, students consider how... (View More) some aspects of our early understanding of Mars included fictitious ideas not based upon science and discuss the differences between science fiction and science fact. Students will illustrate a scene from Mars history with a paragraph description, and place their work along a clothesline in the classroom to create a timeline. This lesson is from “Red Planet: Read, Write, Explore!” which uses literacy, art, and creative expression as a vehicle for learning about Mars science and exploration. Includes alignment to Common Core State Standards (CCSS) for English Language Arts. (View Less)