NASA

Elvira Palomo reports for EFE on new findings from a team of MIT researchers that indicates the Mars One colonization plans are flawed. "Our current technological level does not make such a mission possible," explains graduate student Sydney Do. 

Nidhi Subbaraman of BetaBoston writes about the symposium held in honor of the 100th anniversary of the MIT Department of Aeronautics and Astronautics, highlighting SpaceX CEO Elon Musk’s talk. Musk said that investment in becoming a “multi-planet” species is crucial to the future of humanity.

Jeff Foust of Space News writes that President Barack Obama has nominated MIT Professor Dava Newman to become the next deputy administrator of NASA. "Dava will add a unique perspective to the agency and a fresh look at the space program at a critical time,” said Lori Garver, former deputy administrator of NASA. 

Boston Magazine reporter Steve Annear writes about how MIT engineers have published a new study showing that the Mars One colonization plans are not feasible without the development of additional technology. 

New Scientist reporter Paul Marks examines new findings from a team of MIT researchers who have assessed the Mars One colonization plans. The researchers found that “if crop growth provides 100 per cent of the settlement's food, the system will produce unsafe oxygen levels in the habitat," says graduate student Sydney Do.

The Guardian reports on the new study from a team of MIT engineers examining the Mars One colonization plans. The team found that plans to grow crops in the settlers’ habitat would produce unsafe levels of oxygen, creating a fire risk. 

Los Angeles Times reporter Deborah Netburn writes about how MIT engineers have analyzed the feasibility of the Mars One colonization plans. "The claim they make is that no new technology is required for their mission," says graduate student Syndey Do. "Our numbers show that is not feasible."

Rafi Letzter of Popular Science writes that a team of MIT researchers has published a study debunking Mars One’s plan to establish the first human colony on Mars by 2025. The team found that “without dramatic improvements in equipment life, the space colonists, who would have no way to return to Earth, could starve to death,” writes Letzter. 

An MIT study indicates that plans for settling on Mars could put colonists in danger of starvation, reports Thor Benson for UPI. "Our habitation simulations revealed that crop growth, if large enough to provide 100% of the settlement's food, will produce unsafe oxygen levels in the habitat,” the researchers explain. 

Huffington Post reporter Thomas Tamblyn writes that a team of MIT scientists has found that the Mars One colonization plans are flawed. The researchers found that Mars colonists are unlikely to survive as the production of crops will over saturate the living environment with oxygen, Tamblyn writes. 

Researchers from MIT have detected the brightest pulsar ever recorded, reports Brook Hays of UPI. “Despite its small dimensions and modest mass, the pulsating dead star is burning with the energy of 10 million suns,” writes Hays. 

Macrina Cooper-White of The Huffington Post writes that MIT researchers have found evidence that the giant basin on the moon was created by ancient volcanic eruptions and not from an asteroid impact. An asteroid would have created a circular basin, but researchers found that the basin is actually more rectangular in shape, Cooper-White reports. 

Jonathan Amos of BBC News reports that MIT researchers have identified a large rectangular feature on the moon. “The 2,500km-wide structure is believed to be the remains of old rift valleys that later became filled with lava,” writes Amos. 

Washington Post reporter Rachel Feltman writes that researchers have found evidence that the moon’s basin was formed by magma flows. "For anyone who's ever looked up at the moon and wondered why it has this pattern on its surface — now we have an answer,” says MIT Vice President for Research Maria Zuber. 

“MOXIE itself will be a reverse fuel cell, developed at the Massachusetts Institute of Technology, converting CO2 into oxygen and carbon monoxide via solid oxide electrolysis,” writes Andy Extance in a piece for Scientific American. MOXIE is slated to be deployed on NASA’s next Martian rover.