Wendy Koch of National Geographic spoke with members of the MIT Hyperloop team about their work transforming their design for a levitating pod that could transport people at hundreds of miles an hour into an operational prototype. “It’s a great opportunity to learn and possibly to change the future of transportation,” says project manager and graduate student John Mayo.
Tech Insider’s Chris Weller reports on a new study by MIT researchers that examines how sneezes travel and spread viruses. The findings could help researchers “predict and prevent disease spread,” Weller explains. “If they know how quickly a pathogen spreads via sneeze, then they can learn more about the risks posed by the viruses themselves.”
MIT Hyperloop team members Philippe Kirschen and Sabrina Ball speak with Mike Nikitas of NECN about the team’s approach to the SpaceX competition. “We wanted to design a pod that was safe, scalable and feasible,” explains Kirschen.” We really focused on the technology that we thought we could develop… that could possibly be applied to a full-scale hyperloop.”
MIT researchers are developing a smart bandage that could monitor and help heal wounds, according to Reuters. Prof. Xuanhe Zhao explains that if sensors in the bandage detected “an abnormal increase in temperature, for example, it will send out a command. Then the controlled drug delivery system can deliver a specific drug to that specific location.”
Wired reporter Alex Davies speaks with graduate student Phillipe Kirschen, team captain of the MIT Hyperloop team, about the team’s strategy. Kirschen explains that the team is focused on developing a “pod that is gonna go really fast, that is gonna levitate, that can have good attitude control, and that can brake well.”
Graduate student Chris Merian, chief engineer for MIT's Hyperloop team, speaks with Radio Boston’s Meghna Chakrabarti about the team’s success in the Hyperloop contest. Merian says the team saw the competition as a, “really cool engineering challenge that we are really passionate about, and seeing our hundreds of hours of work rewarded like that was really, really nice.”
Popular Science’s Priscilla Mosqueda writes about the team of MIT students that won the first round of the SpaceX competition. “We had a clear message: our pod was about making something safe, stable and feasible,” explains team captain and graduate student Philippe Kirschen.
A team of MIT students won the first round of the SpaceX Hyperloop competition for their design of a pod that could transport passengers on a conceptual high-speed transportation system. MIT and other top teams will build and test their designs at the Hyperloop Test Track in California, reports the Associated Press.
Boston Herald reporter Laurel Sweet writes that a team of MIT students has won the first round of the SpaceX Hyperloop contest. “Powered by renewable energy, Hyperloop aims to rocket floating passenger pods through elevated tubes at nearly the speed of sound,” writes Sweet.
MIT students captured the top spot in the first round of the SpaceX Hyperloop competition for their design for passenger pods that could travel on a high-speed transportation system, reports David Morris for Fortune.
A team of MIT students took first place in the first round of the SpaceX Hyperloop competition, reports Steve Annear for The Boston Globe. Team members told Annear that, “It’s great to see our hard work recognized, and we are excited to have the opportunity to continue to push this technology one step closer to reality.”
Prof. Ioannis Yannas was inducted into the National Inventor’s Hall of Fame for his work with Dr. John Burke on regenerating human skin as a treatment for burn victims, writes Robby Berman for Slate. In a video accompanying the story, Yannas explains that his work was focused on “speeding up the rate of closing up these wounds.”
Researchers at MIT have developed an incandescent light bulb that vastly improves the device’s energy efficiency, The Economist reports. The modified bulb “maintains the technology’s advantages while vastly improving its energy credentials, giving it the potential to trounce CFLs and LEDs.”
MIT researchers have created artificial replicas of the fur that keeps fur seals and sea otters warm in cold water to see how those hairs act as insulators, reports Charles Choi for Popular Science. The researchers found that “the longer and more closely spaced hairs were, the better that surfaces were at trapping air and staying dry.”
MIT researchers have developed a technique to increase the efficiency of incandescent light bulbs, reports Matt McGrath for BBC News. "We have this huge challenge that the world is facing right now, global warming and energy efficiency and this gives you one more tool," says Prof. Marin Soljačić.