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This Week at NASA…
Two Open Houses at Headquarters in Washington kicked off NASA’s participation in the city’s
Presidential Inaugural activities. Public visitors to the James Webb Auditorium could
hear from Administrator Charles Bolden, Deputy Administrator Lori Garver and other agency
officials about NASA’s current and future plans, programs and missions.
“I especially hope that all the young people who are here go back home with a heightened
passion and a greater understanding of the importance of science, technology, engineering
and math. The STEM disciplines are not only essential to the growth of NASA; they are
your gateway to the jobs of the future and the keys to American competiveness in the
21st. Century.”
“NASA is on a bold course. We have all been challenged to reach farther than ever before.
The President has challenged us to go next to an asteroid for the first time and then
on our way to Mars. These are exciting times.”
NASA Exhibits at Saturday’s National Day of Service event on the Washington Mall highlight
the President’s priorities for the agency, including the International Space Station,
Commercial Space activities, technology development programs and new plans for research on Mars.
And Monday’s Inaugural Parade features full-scale models of two of the agency’s highest-profile
vehicles: the Orion Multi-Purpose Crew Vehicle that will take astronauts beyond low Earth
orbit, and the Mars Curiosity Rover that’s exploring the surface of the Red Planet for
signs of past or present life.
NASA has awarded a $17.8 million contract to Las Vegas-based Bigelow Aerospace to provide
a new addition to the International Space Station. The Bigelow Expandable Activity Module,
or BEAM, will demonstrate how this type of habitat could be used by future space explorers.
“It will provide insight into radiation transmission properties and thermal and structural
performance compared to traditional aluminum modules.”
“We look at this as a stepping stone with expandable technologies. We are hoping and
looking forward to the possibility of doing other things for NASA, with NASA with expandable
systems.”
The expandable habitat represents cutting-edge technology that will enable humans to thrive
in space safely and affordably and heralds important progress in U.S. commercial space
innovation.
NASA and the European Space Agency have reached an agreement on plans for ESA to provide a
service module for the Orion spacecraft's Exploration Mission-1 flight scheduled for
2017.
“To make a commitment this big there needs to be a lot of engineering done behind the
scenes to make sure this is really the right thing to go do. Can we really integrate these
two vehicles together? Where do you define the interfaces? How do you make this happen?
And the teams have done just a tremendous job over the past several months of figuring
out all of those technical interfaces.”
The service module will sit directly behind Orion and provide the capsule's power, thermal
control and propulsion. The agreement expands on the agencies’ successful partnership
on the International Space Station and other activities, and ensures international collaboration
on future missions as humans explore new frontiers in the solar system.
Hello, I am Justin Maki and I am the engineering camera lead for the Mars Science Laboratory
mission and a member of the MSL Science Camera Team and this is your Curiosity Rover Report.
The rover has been investigating the YellowKnife bay area as part of an effort to pick the
exact location of our first drill activity on Mars.
The images being returned by Curiosity show a diverse collection of interesting features,
including sedimentary rocks, pebbles, cracks, nodules, and veins.
The vein features are seen as a bright white material, and we see them just about everywhere
we look in Yellowknife bay. The Chemcam instrument has found that these veins contain elevated
levels of calcium sulfate, likely in the form of bassanite or gypsum. Gypsum veins are also
seen here on Earth and associated with water percolating through cracks and fractured rocks.
The exciting news from all of this analysis is the candidate site where Curiosity will
conduct its first drilling activity.
This site is located only a few meters away from the rover’s current location, and lies
in a flat area, suitable for drilling.
The team hopes to drill directly into one of the veins and place the powder into the
SAM and ChemMin analytical instruments. These instruments will give us detailed information
about the composition of the material. We’ll be driving over there in the next few days.
On our way over to the drill site, we’re planning on using the rover’s wheels to
crush some of these nearby veins and examine the freshly broken material. This image from
Sol 135 shows an example of how the rover can break open soft rocks with its wheels,
revealing the freshly exposed material.
I’m Justin Maki, and this has been your Curiosity Rover Report. Check back for more
reports.
Operations for NASA’s Robotic Refueling Mission are underway on the International
Space Station. Managed by Goddard Space Flight Center, RRM aims to successfully demonstrate
the tools, technologies and techniques needed to robotically refuel satellites in space,
especially those not designed to be serviced. Using DEXTRE, a two-armed Canadian robot on
the station, ground controllers at the Johnson Space Center will simulate a refueling with
a washing machine-size practice box outfitted with tools and connections similar to those
found on a satellite.
A successful simulated fuel transfer could mark a revolution in spacecraft operation
and design. The refueling simulation is scheduled to run through January 24. Other RRM tests
are scheduled into next year.
The International Space Station’s upcoming Expedition 35 and 36 missions were previewed
in a series of news briefings at the Johnson Space Center. Highlighted were scheduled visits
to the station by several spacecraft, including the SpaceX Dragon cargo capsule and the demo
and supply flights of Orbital Sciences’ Cygnus spacecraft.
The media also heard from NASA’s Chris Cassidy, and Pavel Vinogradov and Alexander Misurkin
of the Russian Federal Space Agency – three of the six crew members slated for the missions.
”It’s shaping up to be a very dynamic and a very busy Expedition. We welcome that.
When you can deliver for people that work hard to produce all of those activities on
the ground, that’s very satisfying.”
Cassidy, Vinogradov and Misurkin are set to launch to the orbiting laboratory aboard a
Soyuz spacecraft on March 27. Upon arrival, they’ll join NASA astronaut Tom Marshburn,
Canadian Space Agency astronaut Chris Hadfield and Roscosmos cosmonaut Roman Romanenko.
“When you are trying to understand a problem you go where the problem is most obvious.”
For NASA atmospheric scientists like Jim Crawford and two NASA airplanes from Virginia that
means a trip to California in early 2013. They are part of a team, called DISCOVER-AQ,
that will study air quality by flying over the San Joaquin Valley, a location the Environmental
Protection Agency says is known for pollution.
“We begin with an aircraft like the B200, which flies at high altitude over the central
valley all day long looking downward with remote sensors. We have a second plane, which
flies through the valley profiling moving up and down over various ground sites. The
final component though is at the surface, because ultimately it is at ground level where
the air quality monitoring stations are located.”
What the science team, its instruments and its government and university partners are
trying to do is prepare for when the U.S. can monitor air pollution in the lowest part
of the atmosphere from space.
“We don't have a satellite right now that can do that. We do though have on the books
a geostationary satellite in the future called TEMPO that will be able to look at North America
throughout the day to look at air quality. We're taking observations that will prepare
us to both make better observations from a geostationary orbit as well as you have to
recognize a satellite does not work in isolation. It still needs information from the ground
for validation and interpretation.
That information will come from the five-year DISCOVER-AQ mission. It will be used to help
the satellite paint a more consistent picture of air quality so that scientists can make
better forecasts.
William Borucki, science principal investigator for NASA's Kepler mission at the Ames Research
Center, is the recipient of the 2013 Henry Draper Medal for outstanding contribution
to astrophysical research. Borucki is honored for his pioneering work
with Kepler, the first NASA mission capable of finding other planetary systems whose Earth-size
planets could have water on their surface. Awarded every four years by the National Academy
of Sciences, the Draper Medal will be presented to Borucki this spring. Last June, Borucki
celebrated 50 years of service at NASA. Fifteen years ago on January 22, 1998, space
shuttle Endeavour rose skyward from the Kennedy Space Center to meet up with the Russian Space
Station Mir. Endeavour and her crew delivered more than eight thousand pounds of equipment
and supplies as well as NASA astronaut Andy Thomas. He replaced Dave Wolf, who’d spent
119 days aboard the complex. Thomas became the last U.S. astronaut to serve on Mir.
And that’s This Week @NASA.
For more on these and other stories, or to follow us on Google Plus, Flickr and other
social media, log on to www.nasa.gov.
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