Aug 2 2016

From The Space Library

RELEASE 13-243 NASA Curiosity Rover Approaches First Anniversary on Mars

NASA's Curiosity rover will mark one year on Mars next week and has already achieved its main science goal of revealing ancient Mars could have supported life. The mobile laboratory also is guiding designs for future planetary missions.

"Successes of our Curiosity -- that dramatic touchdown a year ago and the science findings since then -- advance us toward further exploration, including sending humans to an asteroid and Mars," said NASA Administrator Charles Bolden. "Wheel tracks now, will lead to boot prints later."

After inspiring millions of people worldwide with its successful landing in a crater on the Red Planet on Aug. 6, 2012 (Aug. 5, 2012, PDT), Curiosity has provided more than 190 gigabits of data; returned more than 36,700 full images and 35,000 thumbnail images; fired more than 75,000 laser shots to investigate the composition of targets; collected and analyzed sample material from two rocks; and driven more than one mile (1.6 kilometers).

Curiosity team members at NASA's Jet Propulsion Laboratory (JPL) in Pasadena, Calif.,will share remembrances about the dramatic landing night and the mission overall in an event that will air on NASA Television and the agency’s website from 10:45 a.m. to noon EDT (7:45 to 9 a.m. PDT) on Tuesday, Aug. 6.

Immediately following that program, from noon to 1:30 p.m., NASA TV will carry a live public event from NASA Headquarters in Washington. That event will feature NASA officials and crew members aboard the International Space Station as they observe the rover anniversary and discuss how its activities and other robotic projects are helping prepare for a human mission to Mars and an asteroid. Social media followers may submit questions on Twitter and Google+ in advance and during the event using the hashtag #askNASA.

Curiosity, which is the size of a car, traveled 764 yards (699 meters) in the past four weeks since leaving a group of science targets where it worked for more than six months The rover is making its way to the base of Mount Sharp, where it will investigate lower layers of a mountain that rises three miles from the floor of the crater.

NASA's Mars Science Laboratory spacecraft and its unprecedented sky crane landing system placed Curiosity on Mars near the base of Mount Sharp. The mountain has exposed geological layers, including ones identified by Mars orbiters as originating in a wet environment. The rover landed about one mile (1.6 kilometers) from the center of that carefully chosen, 12-mile-long (20 kilometers) target area.

Scientists decided first to investigate closer outcrops where the mission quickly found signs of vigorous ancient stream flow. These were the first streambed pebble deposits ever examined up close on Mars.

Evidence of a past environment well suited to support microbial life came within the first eight months of the 23-month primary mission from analysis of the first sample material ever collected by drilling into a rock on Mars.

"We now know Mars offered favorable conditions for microbial life billions of years ago," said the mission's project scientist, John Grotzinger of the California Institute of Technology in Pasadena. "It has been gratifying to succeed, but that has also whetted our appetites to learn more. We hope those enticing layers at Mount Sharp will preserve a broad diversity of other environmental conditions that could have affected habitability."

The mission measured natural radiation levels on the trip to Mars and is monitoring radiation and weather on the surface of Mars, which will be helpful for designing future human missions to the planet. The Curiosity mission also found evidence Mars lost most of its original atmosphere through processes that occurred at the top of the atmosphere. NASA's next mission to Mars, Mars Atmosphere and Volatile Evolution (MAVEN), is being prepared for launch in November to study those processes in the upper atmosphere.

JPL manages the Curiosity mission and built the rover for NASA's Science Mission Directorate in Washington.

To follow the conversation online about Curiosity's first year on Mars, use hashtag #1YearOnMars or follow @NASA and @MarsCuriosity on Twitter.

RELEASE 13-025 NASA's Journey to Tomorrow Traveling Exhibit Featured at Flag City Balloon Fest

The excitement of exploration is coming to the Flag City Balloon Fest in Findlay Ohio. The public is invited to visit NASA Glenn Research Center’s Journey to Tomorrow traveling exhibit from 4 to 8 p.m. Friday, Aug. 9 and from noon to 8 p.m. Saturday, Aug. 10.

The 53-foot trailer is air-conditioned and wheelchair accessible and packed with hands-on educational activities and digital learning stations.

The exhibit engages guests in real world challenges relative to both aeronautics and space exploration. Visitors can explore technology on computer kiosks and hands-on workstations which include NASA Spinoffs where guests can learn about how NASA technology improves our quality of life; a quiz in Sci-Fi vs. Science Fact, where visitors can find out how much they know about space travel and the search for extraterrestrial life; and perform small experiments in a glovebox.

Other activities include a solar system scale, where a person can find out how much they would weigh on another planet like Jupiter; and a planetary gravity simulator where guests can learn how gravity changes from planet to planet.

Visitors also will have a chance to view various models including NASA’s new Space Launch System rocket and the Orion Crew Module, as well as a real moon rock.

MEDIA ADVISORY M16-091 NASA Invites Media to Learn About New Hurricane Mission

NASA is inviting journalists to learn about a mission that will help improve hurricane track, intensity and storm surge forecasts during a media event from 8 a.m. to 1:15 p.m. CDT Thursday, Aug. 11, at the Southwest Research Institute (SwRI) in San Antonio.

The Cyclone Global Navigation Satellite System (CYGNSS) hurricane mission, scheduled to launch Nov. 21 from Cape Canaveral Air Force Station in Florida, is a constellation of eight microsatellites that will gather never-before-seen details on the formation and intensity of tropical cyclones and hurricanes.

During the event, media will get to tour two SwRI facilities, view the microsatellites stacked on the deployment module in a testing facility, and learn about the mission from the science, engineering, launch and operation teams. Photo and interview opportunities will be available, including interviews with a Spanish-speaking team member.

The event also will highlight other NASA programs on which SwRI works, including the Juno mission to Jupiter, New Horizons mission to Pluto and the Kuiper Belt, and Magnetospheric Multiscale mission, which orbits through near-Earth space observing a little-understood process called magnetic reconnection.

To register for the event, media should contact Maria Stothoff at 210-522-3305 or maria.stothoff@swri.org by Aug. 10. Access to SwRI facilities is restricted to U.S. citizens.

SwRI leads the development and integration of the CYGNSS microsatellites. The Space Physics Research Laboratory at the University of Michigan College of Engineering in Ann Arbor leads the overall mission execution, and its Climate and Space Sciences and Engineering department leads the science investigation. The Earth Science Division of NASA’s Science Mission Directorate oversees the mission.