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Objects in space tend to spin — and spin in a way that’s totally different from the way they spin on earth. Understanding how objects are spinning, where their centers of mass are, and how their mass...
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Stefano Brizzolara, a research scientist in the Department of Mechanical Engineering and director of the newly established Innovative Ship Design Lab (i-Ship), led three Naval Construction and...
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Around the world, there is more salty groundwater than fresh, drinkable groundwater. For example, 60 percent of India is underlain by salty water — and much of that area is not served by an electric...
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While Evelyn Wang (SB '00), an associate professor of mechanical engineering, attended MIT as an undergraduate, her connection to the Institute goes back much further than that: This is where her...
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Gang Chen, head of the Department of Mechanical Engineering, was nominated for the ALS Ice Bucket Challenge by the Graduate Association of Mechanical Engineers (GAME) Service Chair Jay Sircar, on...
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Over recent decades, scientists have watched a climate conundrum develop at the opposite ends of Earth: The Arctic has warmed and steadily lost sea ice, whereas Antarctica has cooled in many places...
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Where the river meets the sea, there is the potential to harness a significant amount of renewable energy, according to a team of mechanical engineers at MIT.
The researchers evaluated an emerging...
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The Simons Foundation, a New York-based philanthropic organization that supports a range of basic science research, has made its first venture into microbial oceanography with a $40 million award to...
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It’s estimated that more than half of U.S. energy — from vehicles and heavy equipment, for instance — is wasted as heat. Mostly, this waste heat simply escapes into the air. But that’s beginning to...
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What’s it like living on the bottom of the ocean in a habitat no bigger than a school bus for more than two weeks? Nicer than you might think, according to Grace Young ’14.
“It was comfortable. I...
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MIT engineers have fabricated a new elastic material coated with microscopic, hairlike structures that tilt in response to a magnetic field. Depending on the field’s orientation, the microhairs can...
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Paper wrinkles, tape tears, cables kink, columns buckle, eggshells break. Pedro M. Reis hopes to transform today’s annoyances into tomorrow’s technology.
Reis, who holds a dual appointment in...
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Researchers at MIT and in Saudi Arabia have developed a new way of making surfaces that can actively control how fluids or particles move across them. The work might enable new kinds of biomedical or...
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A team of researchers has created a new way of manufacturing microstructured surfaces that have novel three-dimensional textures. These surfaces, made by self-assembly of carbon nanotubes, could...
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Several years ago, as a graduate student at MIT, Amos Winter spent a summer in Tanzania surveying wheelchair technology. What he found was a disconnect between products and the lives of their...
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The magnets cluttering the face of your refrigerator may one day be used as cooling agents, according to a new theory formulated by MIT researchers.
The theory describes the motion of magnons — quasi...
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In a recent study published in the Journal of Membrane Science, MIT professor John Lienhard and postdoc Ronan McGovern, both of the Department of Mechanical Engineering, reported that, contrary to...
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Rohit Karnik, an associate professor of mechanical engineering at MIT, addresses real-world challenges with his microfluidics and nanofluidics research. The studies that Karnik and his team have...
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A new material structure developed at MIT generates steam by soaking up the sun.
The structure — a layer of graphite flakes and an underlying carbon foam — is a porous, insulating material structure...
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Twisting a screwdriver, removing a bottle cap, and peeling a banana are just a few simple tasks that are tricky to pull off single-handedly. Now a new wrist-mounted robot can provide a helping hand...