Archive for mars odyssey

Ice Cap to Ice Cap with Mars Odyssey

By alkaon on April 3, 2013 No Comments

Facebook
Twitter
<!––>
Email
RSS
AddThis

See other posts from April 2013

Bill Dunford profile thumbnail

Posted By Bill Dunford

2013/04/02 11:24 CDT

Topics:

pretty pictures,

Mars,

Mars Odyssey

On March 23, 2013 the Mars 2001 Odyssey spacecraft completed 50,000 orbits around the Red Planet. If it’s not a mixed metaphor to call a solar-powered robotic orbiter a workhorse, then Mars Odyssey is a serious contender for the title of Workhorse of the Solar System. In December 2010 Odyssey broke the previous record to become the longest-working spacecraft at Mars.

In addition to mapping the planet, Odyssey also serves as a crucial communication link, relaying signals between Earth and several rovers as they land and drive on the Martian surface.

Since the spacecraft entered orbit in October of 2001, the teams managing Odyssey’s thermal emission imaging system have captured nearly 670,000 images in visible and infrared light.  Those images provide an outstanding overview of even the far reaches of the Red Planet. Countless thousands of craters and canyons are captured as long swaths of terrain in the pictures Odyssey sends down. There are so many great views, in fact, that it can be hard to narrow them down. The images below have one thing in common: they all lie roughly along the same line running from the north pole to the south pole of Mars, at 256 degrees east longitude. This line crosses the terraced ice fields of the north polar cap, through the deep troughs of Tantalus Fossae, up the towering volcanic slopes of Ascraeus Mons, down into the twisted maze of Noctis Labyrinthus, across the plains of Syria Planum and Phoenicius Lacus, before finally crossing into the complex formations at the south polar ice cap.

Including that entire journey in pictures would make for an impossibly long page, so I’ve only included some of the highlights, arranged from north to south.

Even so–prepare to scroll!

The Great White North

NASA/JPL/ASU

The Great White North

The edge of the north polar ice cap and the northern plains of Mars, seen by the Mars Odyssey orbiter.

 

Analyzing Ascraeus Mons

NASA/JPL/ASU

Analyzing Ascraeus Mons

A swath across the great mountain, Ascraeus Mons, as seen by the Mars Odyssey orbiter. The caldera of the extinct volcano is visible near the center. On the flanks, collapse pits where underground lava tubes have collapsed. This is a “decorrelation stretch image,” which includes four panels showing the same part of the Martian surface. In each panel, the differences between views captured through different camera filters has been intentionally maximized in order to highlight the variations in surface composition. These are obviously not the colors you’d see with your eyes, but help Mars scientists explore the landscape.

Martian Thermalscape

NASA/JPL/ASU

Martian Thermalscape

A long stretch of Martian landscape, starting in the north with a section of the Noctis Labyrinthus region of Valles Marineris. This view comes from the heat radiated by the rock, and captured by the thermal emission imaging system on board the Mars Odyssey orbiter.

The Southern Reaches

NASA/JPL/ASU

The Southern Reaches

A section of the layered south polar ice cap on Mars, as captured in detail by the Mars Odyssey orbiter.

This treasure trove of data and images will only grow as Mars Odyssey and the people who fly it continue to add to their long years of work.

Join the New Millennium Committee

Let’s invent the future together!

Become a Member

FINDS Exo-Earths

Are there super-Earth or Earth-sized planets in orbit around Alpha Centauri A or B?

Help Us Find Out

Connect With Us

Facebook! Twitter! Google+ and more…
Continue the conversation with our online community!

facebook.png twitter.png rss.png youtube.png flickr.png googleplus.png

Article source: http://www.planetary.org/blogs/guest-blogs/bill-dunford/20130402-pole-to-pole-with-mars.html

Tags: , , , <BR/>
Categories : Mars News
Tags : , , ,

NASA’s Mars Spacecraft Go Solo Next Month

By alkaon on March 25, 2013 No Comments

An unfavorable planetary alignment will force NASA‘s fleet of robotic Mars explorers to be a lot more self-sufficient next month.

Mission controllers won’t send any commands to the agency’s various Mars spacecraft for much of April, because the sun will lie between Earth and the Red Planet during that time. Our star can disrupt and degrade interplanetary communications in such an alignment, which is known as a Mars solar conjunction, so spacecraft handlers won’t take any chances.

“Receiving a partial command could confuse the spacecraft, putting them in grave danger,” NASA officials explain in a video posted Tuesday (March 19) by the agency’s Jet Propulsion Laboratory (JPL) in Pasadena, Calif.

Transmissions from Earth to the Mars rover Curiosity are slated to be suspended from April 4 to May 1, officials said. No commands will be sent to Curiosity‘s older rover cousin Opportunity or NASA’s Mars-orbiting craft — Mars Odyssey and the Mars Reconnaissance Orbiter (MRO) — from April 9 to April 26.

Both rovers will continue to do stationary science work throughout the conjunction period, relying on commands sent up to them beforehand. [How NASA Deals with a Mars Solar Conjunction (Video)]

“We are doing extra science planning work this month to develop almost three weeks of activity sequences for Opportunity to execute throughout conjunction,” Opportunity mission manager Alfonso Herrera of JPL said in a statement.

MRO and Mars Odyssey will continue science observations as well, though on a more limited basis. The orbiters will also continue their role as rover communication links, receiving data from Opportunity and Curiosity.

Odyssey will send information — its own observations and the rovers’ data — Earthward throughout the conjunction period, though the mission team anticipates some dropouts, so Odyssey will send the data again later as needed.

MRO will take a different tack, storing everything from April 4 until after conjunction. The spacecraft’s operators estimate it will have about 52 gigabits of data onboard when it’s cleared to transmit to Earth again on May 1.

Mars solar conjunctions occur every 26 months, so all of the spacecraft have dealt with them except Curiosity, which landed on the Red Planet last August. Opportunity has been through five conjunctions since arriving on Mars in January 2004, but Odyssey is even more experienced.

“This is our sixth conjunction for Odyssey,” Chris Potts of JPL said in a statement. Potts is mission manager for Odyssey, which has been orbiting Mars since 2001. “We have plenty of useful experience dealing with them, though each conjunction is a little different.”

Follow Mike Wall on Twitter @michaeldwall. Follow us @SpacedotcomFacebook or Google+. Originally published on SPACE.com.

Copyright 2013 SPACE.com, a TechMediaNetwork company. All rights reserved. This material may not be published, broadcast, rewritten or redistributed.

Article source: http://news.yahoo.com/nasas-mars-spacecraft-solo-next-month-093340863.html

Tags: , , <BR/>
Categories : Nasa News
Tags : , ,

NASA’s Mars Spacecraft Go Solo Next Month

By alkaon on March 22, 2013 No Comments




Mars Solar Conjunction Diagram


This diagram illustrates the positions of Mars, Earth and the sun during a period that occurs approximately every 26 months, when Mars passes almost directly behind the sun from Earth’s perspective. This arrangement, and the period during which it occurs, is called Mars solar conjunction.
CREDIT: NASA/JPL-Caltech


An unfavorable planetary alignment will force NASA’s fleet of robotic Mars explorers to be a lot more self-sufficient next month.

Mission controllers won’t send any commands to the agency’s various Mars spacecraft for much of April, because the sun will lie between Earth and the Red Planet during that time. Our star can disrupt and degrade interplanetary communications in such an alignment, which is known as a Mars solar conjunction, so spacecraft handlers won’t take any chances.

“Receiving a partial command could confuse the spacecraft, putting them in grave danger,” NASA officials explain in a video posted Tuesday (March 19) by the agency’s Jet Propulsion Laboratory (JPL) in Pasadena, Calif.

Transmissions from Earth to the Mars rover Curiosity are slated to be suspended from April 4 to May 1, officials said. No commands will be sent to Curiosity’s older rover cousin Opportunity or NASA’s Mars-orbiting craft — Mars Odyssey and the Mars Reconnaissance Orbiter (MRO) — from April 9 to April 26.

Both rovers will continue to do stationary science work throughout the conjunction period, relying on commands sent up to them beforehand. [How NASA Deals with a Mars Solar Conjunction (Video)]

“We are doing extra science planning work this month to develop almost three weeks of activity sequences for Opportunity to execute throughout conjunction,” Opportunity mission manager Alfonso Herrera of JPL said in a statement.

MRO and Mars Odyssey will continue science observations as well, though on a more limited basis. The orbiters will also continue their role as rover communication links, receiving data from Opportunity and Curiosity.

Odyssey will send information — its own observations and the rovers’ data — Earthward throughout the conjunction period, though the mission team anticipates some dropouts, so Odyssey will send the data again later as needed.

Start the Quiz

The original 'Face on Mars' image taken by NASA's Viking 1 orbiter, in grey scale, on July, 25 1976. Image shows a remnant massif located in the Cydonia region.

The original 'Face on Mars' image taken by NASA's Viking 1 orbiter, in grey scale, on July, 25 1976. Image shows a remnant massif located in the Cydonia region.

MRO will take a different tack, storing everything from April 4 until after conjunction. The spacecraft’s operators estimate it will have about 52 gigabits of data onboard when it’s cleared to transmit to Earth again on May 1.

Mars solar conjunctions occur every 26 months, so all of the spacecraft have dealt with them except Curiosity, which landed on the Red Planet last August. Opportunity has been through five conjunctions since arriving on Mars in January 2004, but Odyssey is even more experienced.

“This is our sixth conjunction for Odyssey,” Chris Potts of JPL said in a statement. Potts is mission manager for Odyssey, which has been orbiting Mars since 2001. “We have plenty of useful experience dealing with them, though each conjunction is a little different.”

Follow Mike Wall on Twitter @michaeldwall. Follow us @SpacedotcomFacebook or Google+. Originally published on SPACE.com.

Article source: http://www.space.com/20348-mars-spacecraft-april-solar-conjunction.html

Tags: , , <BR/>
Categories : Nasa News
Tags : , ,

NASA Student Mars Project Wins Education Award

By alkaon on February 25, 2013 No Comments

Ninth-grade, high-school students from Peoria, AZ analyze images of Mars.
Ninth-grade, high-school students from Peoria, AZ analyze images of Mars. Image credit: NASA/JPL-Caltech/ASU

› Larger image

February 21, 2013

<!–JPLIMAGEMARKER __JPL_ALTTEXT_1__JPL_CAPTION_1
Browse version of image
–>

PASADENA, Calif. – A NASA project that allows students to use a camera on a spacecraft orbiting Mars for research has received a new education prize from the journal Science.

NASA’s Mars Student Imaging Project (MSIP), a component of NASA’s Science Mission Directorate education and outreach activities, enables students from fifth grade through college to take an image of the Red Planet’s surface with a camera aboard NASA’s Mars Odyssey. Students study the image to answer their research questions. After the image comes back to Earth, the students are some of the first people to see the picture and make their own discoveries.

Established in 2012, the journal’s Science Prize for Inquiry-Based Instruction encourages innovation and excellence in education by recognizing outstanding, inquiry-based science and design-based engineering education modules. A panel of scientists and teachers selected MSIP as one of 12 education projects from fields such as biology, chemistry, physics and Earth sciences.

Designed to fit within existing science curricula, MSIP targets required science, technology, engineering and mathematics (STEM) objectives and standards for easy integration into classrooms. Authentic research is at the core of the award-winning project.

“At a time when the U.S. critically needs to develop the next generation of scientists and engineers, such student-led discoveries speak to the power of engaging students in authentic research in their classrooms today,” said Jim Green, director of the Planetary Science Division of NASA’s Science Mission Directorate in Washington. “Not only is the chance to explore Mars motivating, it shows students they are fully capable of entering challenging and exciting STEM fields.”

Since MSIP began in 2002, more than 35,000 students across America have participated from public, private, urban, suburban and rural schools of all sizes, grade levels and student abilities. In 2010, a seventh-grade MSIP class in rural California discovered a previously unknown cave on Mars. A student presented their results at a major planetary science conference.

“The Mars Student Imaging Project is a perfect example of how NASA can use its missions and programs to inspire the next generation of explorers,” said Leland Melvin, NASA associate administrator for education in Washington. “If we want our students to become tomorrow’s scientists and engineers, we need to give them opportunities to do real-world — or in this case, out-of-this-world — scientific research, using all of the tools of 21st century learning.”

MISP is a key component of NASA’s Mars Public Engagement Program. The Mars Education Program at Arizona State University in Tempe, under the direction of Sheri Klug Boonstra, leads MSIP. Philip Christensen, principal investigator for the Thermal Emission Imaging System (THEMIS) visible and infrared camera aboard Odyssey, is MSIP’s mentor.

Orbiting Mars since 2001, Odyssey has operated longer than any spacecraft ever sent to Mars. The mission’s longevity enables continued science from instruments on the orbiter, including the monitoring of seasonal changes on Mars from year to year. Odyssey also functions as a communication-relay service for NASA’s Mars rovers.

NASA’s Jet Propulsion Laboratory in Pasadena, Calif., manages the Mars Public Engagement Program and the Odyssey mission for the Science Mission Directorate in Washington. Lockheed Martin Space Systems in Denver built the orbiter. JPL and Lockheed Martin collaborate on operating the spacecraft. JPL is a division of the California Institute of Technology, Pasadena.

Information about the Mars Student Imaging Project is available at: http://mars.nasa.gov/msip/ .

For more about the Mars Odyssey mission, visit: http://mars.jpl.nasa.gov/odyssey .

For information on the prize and eligibility criteria, visit: http://www.sciencemag.org/site/feature/data/prizes/inquiry/ .

Guy Webster 818-354-6278
Jet Propulsion Laboratory, Pasadena, Calif.
guy.webster@jpl.nasa.gov

Dwayne Brown 202-358-1726
NASA Headquarters, Washington

dwayne.c.brown@nasa.gov

2013-068

Article source: http://www.jpl.nasa.gov/news/news.php?release=2013-068

Tags: , , <BR/>
Categories : Nasa News
Tags : , ,

NASA Student Mars Project Wins Education Award

By alkaon on February 22, 2013 No Comments

RELEASE
:
13-061

NASA Student Mars Project Wins Education Award

WASHINGTON — A NASA project that allows students to use a camera on a spacecraft orbiting Mars for research has received a new education prize from the journal Science.

NASA’s Mars Student Imaging Project (MSIP), a component of NASA’s Science Mission Directorate education and outreach activities, enables students from fifth grade through college to take an image of the Red Planet’s surface with a camera aboard NASA’s Mars Odyssey. Students study the image to answer their research questions. After the image comes back to Earth, the students are some of the first to see the picture and make their own discoveries.

Established in 2012, the journal’s Science Prize for Inquiry-Based Instruction encourages innovation and excellence in education by recognizing outstanding, inquiry-based science and design-based engineering education modules. A panel of scientists and teachers selected MSIP as one of 12 education projects from fields such as biology, chemistry, physics and Earth sciences.

Designed to fit within existing science curricula, MSIP targets required science, technology, engineering and mathematics (STEM) objectives and standards for easy integration into classrooms. Authentic research is at the core of the award-winning project.

“At a time when the U.S. critically needs to develop the next generation of scientists and engineers, such student-led discoveries speak to the power of engaging students in authentic research in their classrooms today,” said Jim Green, director of the Planetary Science Division of NASA’s Science Mission Directorate in Washington. “Not only is the chance to explore Mars motivating, it shows students they are fully capable of entering challenging and exciting STEM fields.”

Since MSIP began in 2002, more than 35,000 students across America have participated from public, private, urban, suburban and rural schools of all sizes, grade levels and student abilities. In 2010, a seventh-grade MSIP class in rural California discovered a previously unknown cave on Mars. A student presented their results at a major planetary science conference.

“The Mars Student Imaging Project is a perfect example of how NASA can use its missions and programs to inspire the next generation of explorers,” said Leland Melvin, NASA associate administrator for education in Washington. “If we want our students to become tomorrow’s scientists and engineers, we need to give them opportunities to do real-world — or in this case, out-of-this-world — scientific research, using all of the tools of 21st century learning.”

MISP is a key component of NASA’s Mars Public Engagement Program. The Mars Education Program at Arizona State University in Tempe, under the direction of Sheri Klug Boonstra, leads MSIP. Philip Christensen, principal investigator for the Thermal Emission Imaging System (THEMIS) visible and infrared camera aboard Odyssey, is MSIP’s mentor.

Orbiting Mars since 2001, Odyssey has operated longer than any spacecraft ever sent to Mars. The mission’s longevity enables continued science from instruments on the orbiter, including the monitoring of seasonal changes on Mars from year to year. Odyssey also functions as a communication-relay service for NASA’s Mars rovers.

NASA’s Jet Propulsion Laboratory (JPL) in Pasadena, Calif., manages the Mars Public Engagement Program and the Odyssey mission for the Science Mission Directorate in Washington. Lockheed Martin Space Systems in Denver built the orbiter. JPL and Lockheed Martin collaborate on operating the spacecraft.

Information about the Mars Student Imaging Project is available at:

http://mars.nasa.gov/msip

For more about the Mars Odyssey mission, visit:

http://mars.jpl.nasa.gov/odyssey

For information on the prize and eligibility criteria, visit:

http://www.sciencemag.org/site/feature/data/prizes/inquiry/

– end –


text-only version of this release


NASA press releases and other information are available automatically by sending a blank e-mail message to
hqnews-subscribe@mediaservices.nasa.gov.
To unsubscribe from this mailing list, send a blank e-mail message to
hqnews-unsubscribe@mediaservices.nasa.gov.

Back to NASA Newsroom |
Back to NASA Homepage

Article source: http://www.nasa.gov/home/hqnews/2013/feb/HQ_13-061_Mars_Project_Award.html

Tags: , <BR/>
Categories : Nasa News
Tags : ,

Students Get Satellite Time: Inside the Mars Student Imaging Project

By alkaon on February 22, 2013 No Comments

Fifth-graders to college students can work with NASA’s Mars Odyssey satellite.

Tags: , , <BR/>
Categories : Galaxy
Tags : , ,

Photos: Students Use NASA Satellite to Study Mars

By alkaon on February 22, 2013 No Comments

Images of Mars captured by middle and high school students by the THEMIS instrument on board NASA’s Mars Odyssey.

Tags: , , , <BR/>
Categories : Galaxy
Tags : , , ,

NASA’s Mars Odyssey is Back Up and Running

By alkaon on November 13, 2012 No Comments

NASA announced today that the Mars Odyssey orbiter has switched to a set of redundant equipment and has resumed its observational and relay duties. The equipment that was switched on, which included the orbiter’s backup main computer, had not been used since before the orbiter’s April 2001 launch from Earth.

“The side-swap has gone well,” said Gaylon McSmith, Odyssey project manager at NASA’s Jet Propulsion Laboratory (JPL). “All the subsystems that we are using for the first time are performing as intended.”

Late Sunday, after switching to its redundant systems, Odyssey relayed data from Mars rover Opportunity to Earth using its “B-side” UHF radio. The radio is one of several redundant subsystems linked directly to the “B-side” computer. Later this week the orbiter is expected to relay data for Mars rover Curiosity and resume its own observations.

The switch took place because diagnostics indicated to project managers that the “A-side” inertial measurement unit has only a few months or more of useful life. The switch leaves a fully functioning A-side, which can be used temporarily in case any problem is encountered with the B-side system.

“It is testimony to the excellent design of this spacecraft and operation of this mission in partnership with Lockheed Martin that we have brand-new major components available to begin using after more than 11 years at Mars,” said McSmith.

Odyssey began orbiting Mars on October 24, 2001, making it the longest-working spacecraft ever sent to Mars. The orbiter functions as a relay for the two functioning rovers currently on Mars and also takes its own measurements, following the year-to-year seasonal changes on Mars.

(Image courtesy NASA/JPL)

Article source: http://www.webpronews.com/nasas-mars-odyssey-is-back-up-and-running-2012-11

Tags: , , , , <BR/>
Categories : Nasa News
Tags : , , , , , , , , , ,

NASA shifts vital computer tasks onboard long-running Mars Odyssey satellite

By alkaon on November 2, 2012 No Comments

NASAAfter 11 years, NASA scientists running the Mars Odyssey Orbiter have decided to switch the machine’s redundant computing functions from one side to the other in an attempt to keep the technology serviceable as possible.

Odyssey, which spends its time performing a number of science functions like taking close-up shots  of the Red Planet and relaying information from the Curiosity and Opportunity rovers operating on the surface of the planet, has redundant systems – side A and side B, NASA says.

MORE: NASA Mars Curiosity mission madness

“We have been on the A side for more than 11 years. Everything on the A side still works, but the inertial measurement unit on that side has been showing signs of wearing out,” said Odyssey Mission Manager Chris Potts at NASA’s Jet Propulsion Laboratory, in a release.   ”We will swap to the B side on Nov. 5 so that we still have some life available in reserve on the A side. The spare inertial measurement unit is factory new, last operated on the day before launch.”

The inertial measurement unit is a gyroscope mechanism senses changes in the spacecraft’s orientation, providing important information for control of pointing the antenna, solar arrays and instruments, NASA said.

The side swap will take place on Nov. 5 and will put Odyssey into “safe mode.” As the team and the spacecraft verify all systems can operate well over the following several days, the orbiter will return to full operations, conducting its own science observations, as well as serving as a communications relay, NASA  said. The Curiosity and Opportunity rover teams will reduce the amount of data planned for downlinking until Odyssey returns to full capacity after the side swap is complete, and will maintain near-normal tactical operations in the interim, NASA said.

Article source: http://www.networkworld.com/community/node/81729

Tags: , , <BR/>
Categories : Mars News
Tags : , , , , , , ,

Hearing From Curiosity – How Long Will It Take? | Video

By alkaon on August 6, 2012 No Comments

NASA’s Mars Odyssey and Mars Reconnaissance Orbiter spacecraft will send news of the Curiosity rover’s landing on Mars back to Earth. A lot of variables are involved to successfully receive transmission in the first few hours.

Tags: , , <BR/>
Categories : Galaxy
Tags : , ,

NASA Image of the day

The Engine Burns Blue

 
This image shows a cutting-edge solar-electric propulsion thruster in development at NASA's Jet Propulsion Laboratory, Pasadena, Calif., that uses xenon ions for propulsion. An earlier version of this solar-electric propulsion engine has been flying on NASA's Dawn mission to the asteroid belt. This engine is being considered as part of the Asteroid Initiative, a proposal to robotically capture a small near-Earth asteroid and redirect it safely to a stable orbit in the Earth-moon system where astronauts can visit and explore it. This image was taken through a porthole in a vacuum chamber at JPL where the ion engine is being tested. Image credit: NASA/JPL-Caltech
Read More