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Exploring Mars in the Utah desert
Exploring Mars in the Utah desert
Exploring Mars in the Utah desert
A view of the night sky above the Mars Desert Research Station (MDRS) is seen outside Hanksville in the Utah desert March 2, 2013. The MDRS aims to investigate the possibility of a human exploration of Mars and takes advantage of the Utah desert's Mars-like terrain to simulate working conditions on the red planet. Scientists, students and enthusiasts work together to develop field tactics and study the terrain while wearing simulated spacesuits and carrying air supply packs. They live together in a small communication base with limited space and supplies. Picture taken March 2, 2013. REUTERS/Jim Urquhart
Exploring Mars in the Utah desert
The Mars Desert Research Station (MDRS) is seen in the Utah desert March 2, 2013. The MDRS aims to investigate the possibility of a human exploration of Mars and uses the Utah desert's Mars-like terrain to simulate working conditions on the red planet. Scientists, students and enthusiasts work together to develop field tactics and study the terrain while wearing simulated spacesuits and carrying air supply packs. They live together in a small communication base with limited space and supplies. Picture taken March 2, 2013. REUTERS/Jim Urquhart
Exploring Mars in the Utah desert
Melissa Battler, a geologist and the commander of Crew 125 EuroMoonMars B mission, studies collected geologic samples at the Mars Desert Research Station (MDRS) outside Hanksville in the Utah desert March 2, 2013. The MDRS aims to investigate the feasibility of a human exploration of Mars and uses the Utah desert's Mars-like terrain to simulate working conditions on the red planet. Scientists, students and enthusiasts work together developing field tactics and studying the terrain. All outdoor exploration is done wearing simulated spacesuits and carrying air supply packs and crews live together in a small communication base with limited amounts of electricity, food, oxygen and water. Everything needed to survive must be produced, fixed and replaced on site. Picture taken March 2, 2013. REUTERS/Jim Urquhart
Exploring Mars in the Utah desert
Melissa Battler, a geologist and commander of Crew 125 EuroMoonMars B mission, emerges from the Mars Desert Research Station into the Utah desert March 3, 2013. The MDRS aims to investigate the feasibility of a human exploration of Mars and uses the Utah desert's Mars-like terrain to simulate working conditions on the red planet. Scientists, students and enthusiasts work together developing field tactics and studying the terrain. All outdoor exploration is done wearing simulated spacesuits and carrying air supply packs and crews live together in a small communication base with limited amounts of electricity, food, oxygen and water. Everything needed to survive must be produced, fixed and replaced on site. Picture taken March 3, 2013. REUTERS/Jim Urquhart
Exploring Mars in the Utah desert
REUTERS Photo
Exploring Mars in the Utah desert
REUTERS Photo
Exploring Mars in the Utah desert
REUTERS Photo
Exploring Mars in the Utah desert
Melissa Battler, a geologist and commander of Crew 125 EuroMoonMars B mission, collects geologic samples for study at the Mars Desert Research Station (MDRS) in the Utah desert March 2, 2013. The MDRS aims to investigate the feasibility of a human exploration of Mars and uses the Utah desert's Mars-like terrain to simulate working conditions on the red planet. Scientists, students and enthusiasts work together developing field tactics and studying the terrain. All outdoor exploration is done wearing simulated spacesuits and carrying air supply packs and crews live together in a small communication base with limited amounts of electricity, food, oxygen and water. Everything needed to survive must be produced, fixed and replaced on site. Picture taken March 2, 2013. REUTERS/Jim Urquhart
Exploring Mars in the Utah desert
Members of Crew 125 EuroMoonMars B mission collect geologic samples for study at the Mars Desert Research Station (MDRS) in the Utah desert March 2, 2013. The MDRS aims to investigate the feasibility of a human exploration of Mars and uses the Utah desert's Mars-like terrain to simulate working conditions on the red planet. Scientists, students and enthusiasts work together developing field tactics and studying the terrain. All outdoor exploration is done wearing simulated spacesuits and carrying air supply packs and crews live together in a small communication base with limited amounts of electricity, food, oxygen and water. Everything needed to survive must be produced, fixed and replaced on site. Picture taken March 2, 2013. REUTERS/Jim Urquhart
Exploring Mars in the Utah desert
Members of Crew 125 EuroMoonMars B mission venture out in their simulated spacesuits to collect geologic samples for study at the Mars Desert Research Station (MDRS) in the Utah desert March 2, 2013. The MDRS aims to investigate the feasibility of a human exploration of Mars and uses the Utah desert's Mars-like terrain to simulate working conditions on the red planet. Scientists, students and enthusiasts work together developing field tactics and studying the terrain. All outdoor exploration is done wearing simulated spacesuits and carrying air supply packs and crews live together in a small communication base with limited amounts of electricity, food, oxygen and water. Everything needed to survive must be produced, fixed and replaced on site. Picture taken March 2, 2013. REUTERS/Jim Urquhart
Exploring Mars in the Utah desert
Members of Crew 125 EuroMoonMars B mission return after collecting geologic samples for study at the Mars Desert Research Station (MDRS) in the Utah desert March 2, 2013. The MDRS aims to investigate the feasibility of a human exploration of Mars and uses the Utah desert's Mars-like terrain to simulate working conditions on the red planet. Scientists, students and enthusiasts work together developing field tactics and studying the terrain. All outdoor exploration is done wearing simulated spacesuits and carrying air supply packs and crews live together in a small communication base with limited amounts of electricity, food, oxygen and water. Everything needed to survive must be produced, fixed and replaced on site. Picture taken March 2, 2013. REUTERS/Jim Urquhart
Exploring Mars in the Utah desert
Members of Crew 125 EuroMoonMars B mission return after collecting geologic samples for study at the Mars Desert Research Station (MDRS) in the Utah desert March 2, 2013. The MDRS aims to investigate the feasibility of a human exploration of Mars and uses the Utah desert's Mars-like terrain to simulate working conditions on the red planet. Scientists, students and enthusiasts work together developing field tactics and studying the terrain. All outdoor exploration is done wearing simulated spacesuits and carrying air supply packs and crews live together in a small communication base with limited amounts of electricity, food, oxygen and water. Everything needed to survive must be produced, fixed and replaced on site. Picture taken March 2, 2013. REUTERS/Jim Urquhart
Exploring Mars in the Utah desert
The Musk Observatory is seen from the working and living quarters at the Mars Desert Research Station (MDRS) outside Hanksville in the Utah desert March 2, 2013. The MDRS aims to investigate the feasibility of a human exploration of Mars and uses the Utah desert's Mars-like terrain to simulate working conditions on the red planet. Scientists, students and enthusiasts work together developing field tactics and studying the terrain. All outdoor exploration is done wearing simulated spacesuits and carrying air supply packs and crews live together in a small communication base with limited amounts of electricity, food, oxygen and water. Everything needed to survive must be produced, fixed and replaced on site. Picture taken March 2, 2013. REUTERS/Jim Urquhart
Exploring Mars in the Utah desert
A view of the night sky above the Mars Desert Research Station (MDRS) is seen outside Hanksville in the Utah desert March 2, 2013. The MDRS aims to investigate the feasibility of a human exploration of Mars and uses the Utah desert's Mars-like terrain to simulate working conditions on the red planet. Scientists, students and enthusiasts work together developing field tactics and studying the terrain. All outdoor exploration is done wearing simulated spacesuits and carrying air supply packs and crews live together in a small communication base with limited amounts of electricity, food, oxygen and water. Everything needed to survive must be produced, fixed and replaced on site. Picture taken March 2, 2013. REUTERS/Jim Urquhart
Exploring Mars in the Utah desert
Members of Crew 125 EuroMoonMars B mission venture out in their simulated spacesuits to collect geologic samples for study at the Mars Desert Research Station (MDRS) in the Utah desert March 2, 2013. The MDRS aims to investigate the feasibility of a human exploration of Mars and uses the Utah desert's Mars-like terrain to simulate working conditions on the red planet. Scientists, students and enthusiasts work together developing field tactics and studying the terrain. All outdoor exploration is done wearing simulated spacesuits and carrying air supply packs and crews live together in a small communication base with limited amounts of electricity, food, oxygen and water. Everything needed to survive must be produced, fixed and replaced on site. Picture taken March 2, 2013. REUTERS/Jim Urquhart
Exploring Mars in the Utah desert
Members of Crew 125 EuroMoonMars B mission venture out in their simulated spacesuits to collect geologic samples for study at the Mars Desert Research Station (MDRS) in the Utah desert March 2, 2013. The MDRS aims to investigate the feasibility of a human exploration of Mars and uses the Utah desert's Mars-like terrain to simulate working conditions on the red planet. Scientists, students and enthusiasts work together developing field tactics and studying the terrain. All outdoor exploration is done wearing simulated spacesuits and carrying air supply packs and crews live together in a small communication base with limited amounts of electricity, food, oxygen and water. Everything needed to survive must be produced, fixed and replaced on site. Picture taken March 2, 2013. REUTERS/Jim Urquhart
Exploring Mars in the Utah desert
Melissa Battler (C), a geologist and commander of Crew 125 EuroMoonMars B mission, talks to members of the crew about collecting geologic samples for study at the Mars Desert Research Station (MDRS) in the Utah desert March 2, 2013. The MDRS aims to investigate the feasibility of a human exploration of Mars and uses the Utah desert's Mars-like terrain to simulate working conditions on the red planet. Scientists, students and enthusiasts work together developing field tactics and studying the terrain. All outdoor exploration is done wearing simulated spacesuits and carrying air supply packs and crews live together in a small communication base with limited amounts of electricity, food, oxygen and water. Everything needed to survive must be produced, fixed and replaced on site. Picture taken March 2, 2013. REUTERS/Jim Urquhart
Exploring Mars in the Utah desert
REUTERS Photo
Exploring Mars in the Utah desert
Hans van Ot Woud, a mapping researcher and the health and safety officer of Crew 125 EuroMoonMars B mission, collects geologic samples for study at the Mars Desert Research Station (MDRS) outside Hanksville in the Utah desert March 2, 2013. The MDRS aims to investigate the feasibility of a human exploration of Mars and uses the Utah desert's Mars-like terrain to simulate working conditions on the red planet. Scientists, students and enthusiasts work together developing field tactics and studying the terrain. All outdoor exploration is done wearing simulated spacesuits and carrying air supply packs and crews live together in a small communication base with limited amounts of electricity, food, oxygen and water. Everything needed to survive must be produced, fixed and replaced on site. Picture taken March 2, 2013. REUTERS/Jim Urquhart
Exploring Mars in the Utah desert
Matt Cross, rover engineer of Crew 125 EuroMoonMars B mission, works at his computer at the Mars Desert Research Station (MDRS) in the Utah desert March 3, 2013. The MDRS aims to investigate the feasibility of a human exploration of Mars and uses the Utah desert's Mars-like terrain to simulate working conditions on the red planet. Scientists, students and enthusiasts work together developing field tactics and studying the terrain. All outdoor exploration is done wearing simulated spacesuits and carrying air supply packs and crews live together in a small communication base with limited amounts of electricity, food, oxygen and water. Everything needed to survive must be produced, fixed and replaced on site. Picture taken March 3, 2013. REUTERS/Jim Urquhart
Exploring Mars in the Utah desert
Csilla Orgel, a geologist of Crew 125 EuroMoonMars B mission, makes her way back to the Mars Desert Research Station (MDRS) in the Utah desert March 3, 2013. The MDRS aims to investigate the feasibility of a human exploration of Mars and uses the Utah desert's Mars-like terrain to simulate working conditions on the red planet. Scientists, students and enthusiasts work together developing field tactics and studying the terrain. All outdoor exploration is done wearing simulated spacesuits and carrying air supply packs and crews live together in a small communication base with limited amounts of electricity, food, oxygen and water. Everything needed to survive must be produced, fixed and replaced on site. Picture taken March 3, 2013. REUTERS/Jim Urquhart
Exploring Mars in the Utah desert
Members of Crew 125 EuroMoonMars B mission prepare a meal at the Mars Desert Research Station (MDRS) outside Hanksville in the Utah desert March 2, 2013. The MDRS aims to investigate the feasibility of a human exploration of Mars and uses the Utah desert's Mars-like terrain to simulate working conditions on the red planet. Scientists, students and enthusiasts work together developing field tactics and studying the terrain. All outdoor exploration is done wearing simulated spacesuits and carrying air supply packs and crews live together in a small communication base with limited amounts of electricity, food, oxygen and water. Everything needed to survive must be produced, fixed and replaced on site. Picture taken March 2, 2013. REUTERS/Jim Urquhart
Exploring Mars in the Utah desert
Csilla Orgel, a geologist with Crew 125 EuroMoonMars B mission, collects geologic samples for study at the Mars Desert Research Station (MDRS) outside Hanksville in the Utah desert March 2, 2013. The MDRS aims to investigate the feasibility of a human exploration of Mars and uses the Utah desert's Mars-like terrain to simulate working conditions on the red planet. Scientists, students and enthusiasts work together developing field tactics and studying the terrain. All outdoor exploration is done wearing simulated spacesuits and carrying air supply packs and crews live together in a small communication base with limited amounts of electricity, food, oxygen and water. Everything needed to survive must be produced, fixed and replaced on site. Picture taken March 2, 2013. REUTERS/Jim Urquhart
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