Technique inspired by dolphin chirps could improve tests of soft materials
Method can be used to quickly characterize any soft, rapidly changing substance, such as clotting blood or drying cement.
Method can be used to quickly characterize any soft, rapidly changing substance, such as clotting blood or drying cement.
Design for system that provides solar- or wind-generated power on demand should be cheaper than other leading options.
Assistant Professor Ellen Roche develops revolutionary medical devices through research at the crossroads of medical science and engineering.
Rivian Automotive is showing off its first products at the Los Angeles Auto Show this week.
Researchers have designed a novel printhead that works with unprecedented speed and pioneered ways to melt and extrude renewable materials.
Together, cell growth rate and gene expression shed light on why some tumor cells survive treatment.
Device developed at MIT could provide refrigeration for off-grid locations.
Class takes first-year students through the stages of product design, from ideation and modeling to iteration and user testing.
Jacqueline Hewitt, Kristala Prather, and John Lienhard are among those recognized for their efforts to advance science.
Frankel MME ’60, SM ’60, an expert in ocean systems and economics, served on the faculty of MIT’s Department of Mechanical Engineering and Sloan School of Management.
Microhydraulic actuators, thinner than one-third the width of human hair, are proving to be the most powerful and efficient motors at the microscale.
Mechanical engineering major is among 32 winners nationwide.
Study illuminates new mode of bacteria dispersal.
The School of Engineering’s faculty leadership weigh in on what the MIT Stephen A. Schwarzman College of Computing will mean for their students and faculty.
New design could greatly extend the shelf life of single-use metal-air batteries for electric vehicles, off-grid storage, and other applications.