There’s an old run of Peanuts in which Charlie Brown is repeatedly confronted by girls skipping “hi-fi” jump ropes or wearing “hi-fi” bracelets. Each strip ends with Charlie Brown loudly questioning how such an object can be hi-fi, but of course we know the answer: marketing.
Magnetic soap has that sort of ring to it, too. But there are actually good reasons for making surfactants – the group of surface-tension reducing substances to which soap belongs – stick to magnets. Imagine cleaning up an environmental disaster like the Deepwater Horizon oil spill without leaving any of your cleanup materials behind, and you’ll begin to see what I mean.
Of course, that doesn’t exampling how soap can be magnetic in the first place. For that, you’ll have to read on.
Most people who are termed functionally or legally blind can see something, even if it is only changes in light intensity. The totally blind, conversely, see nothing; but does that mean their eyes cannot perceive light? The answer might surprise you.
Playing video games isn’t exactly rocket science but, thanks to a crowdsourcing computer game developed by University of Washington researchers, it can be molecular biology – and can offer hope to sufferers of tough-to-crack diseases such as Alzheimer’s, cancer and HIV.
Like John Henry versus the steam hammer or Garry Kasparov versus Deep Blue, Foldit players show that humans still have a thing or two to teach machines; unlike Henry, who died, or Kasparov, who lost in a rematch, protein-folding gamers still have an edge over the brute-force number crunching of supercomputers.
We tend to think of nanotechnology as the stuff of the future, but it’s already here, in hundreds of consumer products and industrial applications. As progress in this minuscule world has accelerated, concern for the environment and for public health has led to a call for green nanotechnology—approaches that accentuate the positive and eliminate the negative. In this article, we’ll take a tour of how these many approaches are playing out.
More than just skyline blight, smog is an ozone-filled haze packed with the power to inflict or exacerbate ailments in even healthy adults, to say nothing of small children and the elderly. Unfortunately, although scientists know how it forms and even how to detect it, they cannot always predict where it will strike. Now, researchers at Arizona State University and University of California at Berkeley have embarked upon a project that uses NASA satellites to detect smog precursors over a much wider area than before. The research could enable scientists to spot an ozone plume in time to help communities prepare for its health effects.