How strong is your knot?
With help from spaghetti and color-changing fibers, a new mathematical model predicts a knot’s stability.
With help from spaghetti and color-changing fibers, a new mathematical model predicts a knot’s stability.
Technique may help remotely image and assess health of infants, burn victims, and accident survivors in hard-to-reach places.
Mechanical engineers rush to develop energy conversion and storage technologies from renewable sources such as wind, wave, solar, and thermal.
A J-WAFS connection brings together two MIT research teams helping to advance irrigation in sub-Saharan Africa.
Student projects presented at the annual MIT event range from beekeeping safety to custom cosmetics.
Thomas Kochan, Julie Shah, and Evelyn Wang honored by graduate students as "Committed to Caring."
A novel experimental facility integrates automation and active learning, illuminating a path to accelerated scientific discovery.
In 8.02 (Electricity and Magnetism), students explore the practical application of electromagnetic concepts.
Mining materials from the sea floor could help secure a low-carbon future, but researchers are racing to understand the environmental effects.
Long-lasting capsule can remain in the stomach and release contraceptive drugs over several weeks.
Course 2.00a (Fundamentals of Engineering Design: Explore Space, Sea and Earth) empowers first-year students to build machines early in their academic careers.
Baggeroer, Flynn, Harris, Klopfer, Lauffenburger, and Leonard are recognized for their efforts to advance science.
Ali Daher, Claire Halloran, Francisca Vasconcelos, Billy Andersen Woltz, and Megan Yamoah will begin postgraduate studies at Oxford University next fall.
New material should be relatively easy to produce at an industrial scale, researchers say.
MIT-Italy helps build supercharged partnerships on campus and across the globe.