Space

March 11, 2013

NASA launches exploration design challenge

NASA unveiled an Exploration Design Challenge March 11 to give students from kindergarten through 12th grade the opportunity to play a unique role in the future of human spaceflight.

The innovative educational opportunity was announced in a special event at NASA’s Johnson Space Center in Houston. The challenge asks students in the U.S. and abroad to think and act like scientists to overcome one of the major hurdles for deep space long-duration exploration — protecting astronauts and hardware from the dangers of space radiation.

This education-focused effort was developed through a Space Act Agreement between NASA and Lockheed Martin Corp. of Bethesda, Md., in collaboration with the National Institute of Aerospace in Hampton, Va. The goal is to help students see their role in America’s future exploration endeavors.

“America’s next step in human space exploration is an ambitious one and will require new technologies, including ways to keep our astronauts safe from the effects of deep-space radiation,” Bolden said. “That is the focus of this challenge, and we are excited students will be helping us solve that problem.”

The announcement took place in front of a full-size Orion replica at Johnson’s Space Vehicle Mockup Facility. Orion is the spacecraft that will take astronauts to deep space destinations in the future. NASA Administrator Charles Bolden, NASA Orion Program Manager Mark Geyer, Lockheed Martin CEO and President Marillyn Hewson, and NASA Associate Administrator for Education Leland Melvin were at the event. They were joined by local teacher Amber Pinchback, who offered an educator’s perspective on the value of NASA missions and programs and how they benefit science, technology, engineering and math (STEM) in the classroom.

“Space exploration has inspired and fascinated young people for generations, and the Exploration Design Challenge is a unique way to capture and engage the imaginations of tomorrow’s engineers and scientists,” Hewson said.

The first Orion test mission in space is called Exploration Flight Test-1 (EFT-1). The mission is set to lift off in 2014 from Cape Canaveral Air Force Station in Florida.

Melvin, a two-time shuttle astronaut, explained the details of the challenge and shared why hands-on experience and involvement is an effective catalyst for engaging young minds in the future of America’s human spaceflight program.

“Exploration Flight Test-1 is set to launch next year, so participating in this challenge will give the students a real sense of being part of the NASA team,” Melvin said. “They will be able to chart Orion’s progress as it moves closer to the test launch. That’s important because these students represent our future scientists, engineers and explorers.”

NASA is planning for longer human space exploration missions outside the protective blanket of Earth’s atmosphere and magnetosphere. NASA, Lockheed Martin and other partners are developing the Orion spacecraft to carry astronauts farther into space than humans ever have gone before. To do this, materials must be engineered for the spacecraft that will better protect future space explorers from the dangers of space radiation. In 2017, NASA’s Space Launch System heavy-lift rocket, currently in development, will send Orion on a flight test mission around the moon.

NASA’s Exploration Design Challenge brings cutting-edge learning to educators and students using standards-based activities, as well as print and video resources developed by leading education experts. Students taking part in the challenge will discover how to plan and design improved radiation shielding aboard the new spacecraft.

Younger students, in grades K-4 and 5-8, will analyze different materials that simulate space radiation shielding for Orion and recommend materials that best block harmful radiation and protect astronauts. Students in grades 9-12 will learn about radiation and human space travel in greater detail. Using what they have learned, they will be asked to think and act like engineers by designing shielding that protects a sensor on the Orion capsule from space radiation.

 

To learn more about the Exploration Design Challenge and sign up to become a virtual crew member, visit http://www.nasa.gov/education/edc.

 




All of this week's top headlines to your email every Friday.


 
 

 
Image courtesy of NASA/CXC/DSS/Magellan

NASA’s Chandra Observatory finds cosmic showers halt galaxy growth

Image courtesy of NASA/CXC/DSS/Magellan A study of over 200 galaxy clusters, including Abell 2597 shown here, with NASAís Chandra X-ray Observatory has revealed how an unusual form of cosmic precipitation stifles star formatio...
 
 
Image courtesy of NASA/JPL-Caltech/UCLA/MPS/DLR/IDA

NASA spacecraft nears historic dwarf planet arrival

Image courtesy of NASA/JPL-Caltech/UCLA/MPS/DLR/IDA NASA’s Dawn spacecraft took these images of dwarf planet Ceres from about 25,000 miles away Feb. 25, 2015. Ceres appears half in shadow because of the current position o...
 
 

Northrop Grumman’s AstroMesh reflector successfully deploys for NASA’s SMAP satellite

The NASA Jet Propulsion Laboratory successfully deployed the mesh reflector and boom aboard the Soil Moisture Active Passive spacecraft, a key milestone on its mission to provide global measurements of soil moisture. Launched Jan. 31, SMAP represents the future of Earth Science by helping researchers better understand our planet. SMAP’s unmatched data capabilities are enabled...
 

 
NASA photograph by Brian Tietz

NASA offers space tech grants to early career university faculty

NASA photograph by Brian Tietz Tensegrity research is able to simulate multiple forms of locomotion. In this image, a prototype tensegrity robot reproduces forward crawling motion. NASA’s Space Technology Mission Director...
 
 

NASA releases first global rainfall, snowfall map from new mission

Like a lead violin tuning an orchestra, the GPM Core Observatory – launched one year ago on Feb. 27, 2014, as a collaboration between NASA and the Japan Aerospace Exploration Agency – acts as the standard to unify precipitation measurements from a network of 12 satellites. The result is NASA’s Integrated Multi-satellite Retrievals for GPM...
 
 

New NASA Earth Science Missions expand view of our home planet

Four new NASA Earth-observing missions are collecting data from space with a fifth newly in orbit ñ after the busiest year of NASA Earth science launches in more than a decade. On Feb. 27, 2014, NASA and the Japan Aerospace Exploration Agency launched the Global Precipitation Measurement Core Observatory into space from Japan. Data from...
 




0 Comments


Be the first to comment!


Leave a Reply

Your email address will not be published. Required fields are marked *

You may use these HTML tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>