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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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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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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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Leslie Bromberg, a research scientist at MIT’s Plasma Science and Fusion Center, and Alexander Sappok ’09 have been recognized by R&D Magazine for inventing one of the top 100 technologies of the...
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Whenever there is a major spill of oil into water, the two tend to mix into a suspension of tiny droplets, called an emulsion, that is extremely hard to separate — and that can cause severe damage to...
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The Case of the Welcome “Hairball”
by Alissa Mallinson
PhD student Folkers Rojas (SB ‘09, SM ‘11, PhD ‘14)Photo credit: Tony Pulsone
What do a bathtub hairball and a MechE-developed blowout ...
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Professor Sapsis’ research focuses on the area of stochastic dynamical systems in ocean engineering, including uncertainty quantification of turbulent fluid flows, passive protection configurations...
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New Methods and Software Can Predict Optimal Paths for Automated Underwater Vehicles
By David Chandler, MIT News Office
Pierre Lermusiaux Photo credit: M. Scott Brauer
Sometimes the fastest...
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Large-Scale Tests in the Lab and the South China Sea Reveal the Origins of Underwater Waves that Can Tower Hundreds of Feet
By David Chandler, MIT News Office
Their effect on the surface of the ...
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The Sherlock Holmes of the Seas
by Alissa Mallinson
Professor Emeritus Jerome Milgram Photo courtesy of the MIT Museum
He refers to himself as a seagoing Sherlock Holmes.
Known for many things,...
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Engineering and the Ocean Environment: Challenge and Opportunity
by Alissa Mallinson
Vast and seemingly impenetrable, the ocean inspires endless fascination. It is the topic of countless tales...
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Researchers at MIT have discovered a new way of harnessing temperature gradients in fluids to propel objects. In the natural world, the mechanism may influence the motion of icebergs floating on the...
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“For whosoever commands the sea commands the trade; whosoever commands the trade of the world commands the riches of the world, and consequently the world itself,” wrote English adventurer Sir Walter...
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Their effect on the surface of the ocean is negligible, producing a rise of just inches that is virtually imperceptible on a turbulent sea. But internal waves, which are hidden entirely within the...
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Fog-harvesting system developed by MIT and Chilean researchers could provide potable water for the world’s driest regions.
By David Chandler, MIT News Office
Photo courtesy of researchers.
In...
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Four MIT seniors — Kate Koch, Colleen Loynachan, Kirin Sinha, and Grace Young — are among 34 new winners nationwide of prestigious Marshall Scholarships, which support two years of graduate study in...
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When an earthquake and tsunami struck Japan’s Fukushima nuclear power plant in 2011, knocking out emergency power supplies, crews sprayed seawater on the reactors to cool them — to no avail.
One...
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The concept of a market-based mechanism to curb emissions of greenhouse gases — and thus slow the pace of climate change — has often been suggested in recent decades. But one particular version of...
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If you take a stroll past the MIT Sailing Pavilion on Memorial Drive, you may see, among the usual glut of sailboats on the Charles River, two red child-sized kayaks riding the waves. Instead of the...
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In a completely unexpected finding, MIT researchers have discovered that tiny water droplets that form on a superhydrophobic surface, and then “jump” away from that surface, carry an electric charge...