Popular Science reporter Alexandra Ossola writes that MIT researchers are examining how drops of fluid from a sneeze travel. Ossola explains that gaining a “better understanding of these drops form and spread could help researchers and engineers stop the spread of disease, especially in enclosed spaces."
Erica Klarreich writes for Quanta Magazine about how researchers have solved a 50-year-old math problem posed by MIT Prof. Emeritus Isadore Singer and his colleague Prof. Richard Kadison. The Kadison-Singer problem asked “how much it is possible to learn about a 'state' of a quantum system if you have complete information about that state in a special subsystem.”
MIT researchers have examined how droplets are formed in high-propulsion sneeze clouds, according to CBS Boston. “Droplets are not all already formed and neatly distributed in size at the exit of the mouth, as previously assumed in the literature,” explains Prof. Lydia Bourouiba.
Prof. Lydia Bourouiba has modeled how droplets are formed after a person sneezes, reports Jonathan Webb for BBC News. “The process is important to understand because it determines the various sizes of the final droplets - a critical factor in how a sneeze spreads germs,” writes Webb.
MIT researchers have found that the high-velocity cloud created by the average human sneeze can contaminate a room in minutes, writes Robert Preidt for U.S. News & World Report. Sneeze droplets "undergo a complex cascading breakup that continues after they leave the lungs, pass over the lips and churn through the air," explains Prof. Lydia Bourouiba.
Writing for The Boston Globe, Nancy Shohet West highlights Prof. Erik Demaine and Martin Demaine’s paper sculptures, which are on display at the Concord Center for the Visual Arts. “We started getting interested a number of years ago in curve creases and what was possible mathematically,” explains Prof. Demaine. “We started making models and then turned those into sculpture.”
MIT researchers have devised a technique for desalinating water, reports Nina Godlewski for Boston.com. “The process, called shock electrodialysis, filters water through a material made of small glass particles,” writes Godlewski. “When an electric current is introduced to the system, the water divides into areas of high or low salt concentration.”
Boston Globe reporter Felicia Gans writes that a number of MIT researchers have been honored “by the Breakthrough Prize organization, which honors scientists worldwide for their pioneering research.”
Tina Casey reports for Popular Science that several MIT researchers have been honored with Breakthrough Prizes. Casey writes that Prof. Edward Boyden was honored for his work creating optogenetics, Prof. Joseph Formaggio and his team were honored for their research on neutrinos, and Profs. Larry Guth and Liang Fu won New Horizons Prizes.
Prof. Tomasz Mrowka, head of the Department of Mathematics, speaks with U.S. News & World Report’s Delece Smith-Barrow about options for graduate students participating in MIT’s mathematics program. "We span the gamut of what happens in mathematics," says Mrowka.
Nobel laureate John Nash, who taught at MIT from 1951 until 1959, died Saturday at age 86, writes Erica Goode for The New York Times. “John’s remarkable achievements inspired generations of mathematicians, economists and scientists,” says Christopher L. Eisgruber, the president of Princeton.
Sarah Lewin writes for Wired about research by Professor Pedro Reis and a team of MIT mathematicians on the formation of wrinkles in materials. “What’s beautiful about this work is the collaboration between experimentalists and theorists,” says Reis. “We challenged them with results we didn’t understand, and they went somewhere new.”
Francie Diep writes for Popular Science about how a new mathematical theory developed by MIT researchers may help to explain how surfaces wrinkle. “The equation could help chemists working on high-tech materials,” explains Diep.
MIT alumnus Noam Angrist and seniors Anisha Gururaj and Elliot H. Akama-Garren were among 32 Rhodes scholars selected from the U.S. this year, reports Jennifer Smith for The Boston Globe. “The American scholars will join an international group of students chosen from 14 other global jurisdictions, according to the Rhodes Trust,” Smith reports.
Two MIT seniors and alumnus Noam Angrist have been named Rhodes Scholars, reports Dave Collins for the Associated Press. “It’s a total dream come true,” says Angrist. “The skills I will get at (Oxford) are just incredible, and I’ll come back into the world fully equipped to do what I love to do.”