Tag Archives: sound waves

Pierre Hardy’s VIBE sneakers embody the perfect Stormtrooper aesthetic

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The black and white aesthetic is often lovably referred to as the Stormtrooper color finish, named after the bungling, comedic elite army force of the dark side on Star Wars. Truth be told, it isn’t just the use of black and white, but rather the interesting interplay between the two, and the combination of colors usually is usually heavier on the white than on the black. Pierre Hardy’s Vibe Sneakers, for instance, are a perfect embodiment of that aesthetic, with its jagged zebra-esque design that gives the shoes heavy dynamism and contrast, making them absolutely eye-catching and jaw-dropping.

Built with a gum sole and a calf-leather upper, the Vibe sneakers from Pierre Hardy are luxury and style wrapped in a singular package. Creating an edgy contrast with the racy geometric stripes, the Vibe’s patterns actually draw inspiration from sound waves, which are translated onto the shoe’s body by pairing leather cuts all the way from the bottom to the very top. While this Stormtrooper-esque version is my favorite, the Vibes come in an absolutely delicious gradient version too!

Designer: Pierre Hardy

Scientists use sound waves to lift and move objects, make cup of joe mid-air

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Scientists use sound waves to lift and move objects, make cup of joe mid-air
Levitating objects with sound waves isn't anything new, but a team from Switzerland has taken it to the next level by rotating and moving objects as they float. In fact, the researchers were able to manipulate a number of objects mid-air, including water droplets, inserting DNA into cells and mixing up a little instant coffee. If you're wondering how intense sound waves need to be to get things moving (at this level, at least) then 160 decibels is the starting point. If that sounds ear-splittingly loud, that's because it is. But, by using frequencies typically out of the human audible range (24 kHz), no ears were at risk. The movement itself is controlled by a grid of sound-emitting squares. Once the object was in the air, it could be moved around by lowering the volume on one grid point, and increasing it on the next. For now, the science is only able to lift tiny objects, but the same team claims that it'll will soon show similar work using steel balls. Could we use this to get our (sonic) hoverboard? We're not calling that just yet.

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Via: Washington Post

Source: PNAS