If NASA is to land humans on Mars by the 2030s, as President Barack Obama has directed, there’s not much time to settle on a plan and develop the technologies required, agency officials said Monday (May 6).
In the 1960s, America seized an opportunity to go to the moon, and succeeded. A second opportunity for a leap forward in space is upon us now, said NASA chief Charles Bolden at the Humans 2 Mars Summit here at George Washington University.
“Interest in sending humans to Mars I think has never been higher,” Bolden said. “We now stand on the precipice of a second opportunity to press forward to what I think is man’s destiny – to step onto another planet.” [Buzz Aldrin’s Visions for Mars Missions & More (Video)]
Yet the road to Mars is long and challenging, and the difficulties are scientific, technological, political and economic, experts said.
Of launches and landings
Sending astronauts to the Red Planet will likely require at least three missions: one to launch the crew and the vehicle that will take them to Mars, one to launch the habitat humans will live on at the planet’s surface, and one to launch the vehicle that will lift off from Mars to take the crew home, said Doug Cooke, a former NASA associate administrator for the Exploration Systems Mission Directorate who now heads a space consulting firm.
Overall, about 200 to 400 metric tons of equipment will have to be launched from Earth’s surface for the project – a mass roughly equivalent to that of the International Space Station. And about 40 metric tons of that mass will have to be delivered to the surface of Mars at one time. So far, NASA has been able to land only 1 metric ton at a time – a feat recently accomplished in nail-biting fashion when the agency landed the Curiosity rover last summer.
While this phase, called Mars entry, descent and landing, will be one of the most challenging elements of the mission, at least as difficult is the return, when the astronauts will have to lift off from the surface of Mars and travel home. [Missions to Mars: Robotic Invasion of Red Planet (Infographic)]
“To me this is one of the biggest challenges,” said Mike Raftery, director of space station utilization and exploration at Boeing, the primary contractor for NASA’s heavy-lift rocket being developed to go to Mars. “We have to essentially land a launch pad on the surface that’s then ready to launch the crew back to Earth.”
Living off the land
In addition to the launch system, Mars crews will have to bring their own life-support systems, medicine, food, communications systems and navigation equipment. Yet the space travelers won’t be able to pack everything they’ll need. Instead, they will have to take advantage of some of the resources on Mars, such as water and oxygen for breathing, drinking and other needs. However, the technologies needed to extract and use such resources don’t yet exist.
“We’re going to have to rely on being able to live off the land,” said James Reuther of NASA’s Office of the Chief Technologist. “Those will require significant technology investments in order to actually bring that about.”
Engineers must also develop a means of shielding astronauts from the dangerous radiation in space, both during the journey to the Red Planet and on the Martian surface, which lacks a strong enough atmosphere to protect from these damaging particles.
And to adequately plan for a human landing, additional precursor missions may also be necessary.
“It’s very likely that we’ll send some kind of lander or rover to the site we want to send people to first, to drill a couple meters down to tell us if we have fresh water,” said John Grunsfeld, associate administrator for NASA’s science mission directorate. Such a spacecraft could also serve as a beacon to guide the crewed lander down to the chosen spot on Mars.
Despite the complexity of all these challenges, NASA has a limited amount of time to plan its mission if it wants humans to arrive in the 2030s.
Read more at Space.com.