Ferrofluid surface simulations go more than skin deep
Computer models efficiently and accurately simulate the magnetic responses of ferrofluids by considering only the fluid's surface.
Computer models efficiently and accurately simulate the magnetic responses of ferrofluids by considering only the fluid's surface.
Materials Science
Jan 11, 2021
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Ferrofluids, with their mesmeric display of shape-shifting spikes, are a favorite exhibit in science shows. These eye-catching examples of magnetic fields in action could become even more dramatic through computational work ...
General Physics
Jul 15, 2019
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Brandon Jackson, a doctoral candidate in mechanical engineering at Michigan Technological University, has created a new computational model of an electrospray thruster using ionic liquid ferrofluid—a promising technology ...
Soft Matter
Jul 11, 2017
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A team of researchers at Finland's Aalto University has discovered a way to cause droplets of ferrofluid (liquids with suspended magnetic nanoparticles in them) to self-assemble into complex shapes. In their paper published ...
MIT researchers have developed a new technique for magnetically separating oil and water that could be used to clean up oil spills. They believe that, with their technique, the oil could be recovered for use, offsetting much ...
Materials Science
Sep 12, 2012
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Microscopic particles are being coaxed by Duke University engineers to assemble themselves into larger crystalline structures by the use of varying concentrations of microscopic particles and magnetic fields.
Nanophysics
Apr 24, 2012
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(PhysOrg.com) -- What do Saturn and flowers have in common? As shapes, both possess certain symmetries that are easily recognizable in the natural world. Now, at an extremely small level, researchers from Duke University ...
Nanophysics
Feb 18, 2009
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