Add to ORKGThe successful landing of human beings on Mars and the establishment of a permanent outpost there will require an understanding of the Martian environment by the engineers. A key feature of the Martian environment is the nearly ubiquitous presence of sand and dust. The process which the engineering community will undertake to determine the sensitivities of their designs to the current level of knowledge about Mars sand and dust is emphasized. The interaction of the engineering community with the space exploration initiative (SEI) mission planners and management is described
Contact: bclancey @ mail.arc.nasa, gov Living and working on Mars will require model-based computer ...
properties, which are not known with sufficient certainty to guarantee successful equipment design w...
To date, there are two simulants for martian regolith: JSC Mars-1A, produced from palagonitic (weath...
Space suits and life support equipment will come in intimate contact with Martian soil as aerosols, ...
After the high radiation environment and the low gravity field on Mars, dust is arguably the next bi...
Robotic rovers and landers have enabled the mineralogical, chemical, and physical characterization o...
The exploration of Mars by human crews will be a complex endeavor as illustrated by this description...
The requirements for obtaining geological, geochemical, geophysical, and meteorological data on the ...
Crewed Mars missions are a big challenge in the 21st century starting from exploring the surface on ...
Since the development of the space program, we as a species have experienced environments beyond Ear...
Project Summary: The presence of fine soil particles poses a significant threat to human health and ...
A summary of chemical and mineralogical properties of Martian surface dust is offered for the benefi...
As humans venture deeper into space more issues related to operations will become apparent. While th...
International audienceIn view to prepare Mars human exploration, it is necessary to promote and lead...
Mars has long been the ultimate goal for human space exploration. This paper will compile rese...
Contact: bclancey @ mail.arc.nasa, gov Living and working on Mars will require model-based computer ...
properties, which are not known with sufficient certainty to guarantee successful equipment design w...
To date, there are two simulants for martian regolith: JSC Mars-1A, produced from palagonitic (weath...
Space suits and life support equipment will come in intimate contact with Martian soil as aerosols, ...
After the high radiation environment and the low gravity field on Mars, dust is arguably the next bi...
Robotic rovers and landers have enabled the mineralogical, chemical, and physical characterization o...
The exploration of Mars by human crews will be a complex endeavor as illustrated by this description...
The requirements for obtaining geological, geochemical, geophysical, and meteorological data on the ...
Crewed Mars missions are a big challenge in the 21st century starting from exploring the surface on ...
Since the development of the space program, we as a species have experienced environments beyond Ear...
Project Summary: The presence of fine soil particles poses a significant threat to human health and ...
A summary of chemical and mineralogical properties of Martian surface dust is offered for the benefi...
As humans venture deeper into space more issues related to operations will become apparent. While th...
International audienceIn view to prepare Mars human exploration, it is necessary to promote and lead...
Mars has long been the ultimate goal for human space exploration. This paper will compile rese...
Contact: bclancey @ mail.arc.nasa, gov Living and working on Mars will require model-based computer ...
properties, which are not known with sufficient certainty to guarantee successful equipment design w...
To date, there are two simulants for martian regolith: JSC Mars-1A, produced from palagonitic (weath...