It's hard to study quantum behavior on Earth. You can amplify the effects of quantum mechanics by zapping groups of specific atoms (Bose-Einstein condensates) with lasers that drop their temperature to near absolute zero, but that only works for frac...
Ball lightning (those bright spheres of light during some thunderstorms) remains mysterious despite decades of study. But how are you supposed to get a better look at it in a lab? Researchers might have discovered how through a happy accident: crea...
How do you find out what happens to physics near absolute zero (aka 0 kelvin), the temperature where particle motion virtually stops? Scientists at the University of Basel might have just the device to do it. They've developed a nanoelectronics chi...
There hasn't really been a good skateboarding game since Skate 3 in 2010. Don't even try to mention Tony Hawk 5, either: that game was awful. Session, an upcoming skateboarding simulation game by Crea-ture Studios, aims to change that with a neat-loo...
Scientists at MIT have designed a pocket-sized muon detector that can be easily made with common electrical parts, meaning anyone can kit themselves out with legitimately-functional Ghostbusters-esque gear for less than $100. The device detects the c...
Who said light only had to travel in boring waves or particles? Not Harvard. Its researchers have found a way to spin light into complex states that promise breakthroughs in multiple fields. They've built metasurfaces whose elaborate optics combin...
The race to produce ever-faster laser pulses has set a new record, and it could lead to breakthroughs in our understanding of atom-level physics. A team at ETH Zurich has shortened an X-ray pulse to just 43 attoseconds (10-18 seconds), which is quick...
The 2017 winners of the Nobel Prize for Physics were announced today. One half of the prize will go to Ranier Weiss from MIT, while the other half is being awarded jointly to Barry C. Barish and Kip S. Thorne, both from Caltech. The three scientists...
While most levitation is achieved with magnets, it’s also possible to suspend small objects in air using sound waves. Thanks to engineer Asier Marzo, you can even create your own acoustic levitator, which can float lightweight objects like water droplets, styrofoam beads, and even insects.
The system uses a 3D printed rig that holds two opposing grids filled with 36 tiny ultrasonic transducers each. An Arduino Nano, a power supply, and a motor drive board control the transducers, which basically push and pull on small objects you place in their path, holding them in mid-air. Levitation is achieved by pushing air out of both top and bottom transducers, which apply an equivalent amount of pressure from above and below the objects.
Asier describes the highlights of the build in the video below:
Neat, eh? Now if you’re ready to build your own acoustic levitator, check out the full build log over on Instructables. There’s a great article on the physics behind acoustic levitation over on How Stuff Works too.
Neutrinos are notoriously difficult to understand, but work is underway to know them a little better. Researchers have officially broken ground on the Long-Baseline Neutrino Facility, the home to the international Deep Underground Neutrino Experimen...
It's hard to study quantum behavior on Earth. You can amplify the effects of quantum mechanics by zapping groups of specific atoms (Bose-Einstein condensates) with lasers that drop their temperature to near absolute zero, but that only works for frac...
Ball lightning (those bright spheres of light during some thunderstorms) remains mysterious despite decades of study. But how are you supposed to get a better look at it in a lab? Researchers might have discovered how through a happy accident: crea...
How do you find out what happens to physics near absolute zero (aka 0 kelvin), the temperature where particle motion virtually stops? Scientists at the University of Basel might have just the device to do it. They've developed a nanoelectronics chi...
There hasn't really been a good skateboarding game since Skate 3 in 2010. Don't even try to mention Tony Hawk 5, either: that game was awful. Session, an upcoming skateboarding simulation game by Crea-ture Studios, aims to change that with a neat-loo...
Scientists at MIT have designed a pocket-sized muon detector that can be easily made with common electrical parts, meaning anyone can kit themselves out with legitimately-functional Ghostbusters-esque gear for less than $100. The device detects the c...
Who said light only had to travel in boring waves or particles? Not Harvard. Its researchers have found a way to spin light into complex states that promise breakthroughs in multiple fields. They've built metasurfaces whose elaborate optics combin...
The race to produce ever-faster laser pulses has set a new record, and it could lead to breakthroughs in our understanding of atom-level physics. A team at ETH Zurich has shortened an X-ray pulse to just 43 attoseconds (10-18 seconds), which is quick...
The 2017 winners of the Nobel Prize for Physics were announced today. One half of the prize will go to Ranier Weiss from MIT, while the other half is being awarded jointly to Barry C. Barish and Kip S. Thorne, both from Caltech. The three scientists...
Neutrinos are notoriously difficult to understand, but work is underway to know them a little better. Researchers have officially broken ground on the Long-Baseline Neutrino Facility, the home to the international Deep Underground Neutrino Experimen...