Electric Dreams Help Cows Survive The Desert Of The Real

Pictures of a cow wearing a pair of comically oversized virtual reality goggles recently spread like wildfire over social media, and even the major news outlets eventually picked it up. Why not? Nobody wants to read about geopolitical turmoil over the holidays, and this story was precisely the sort of lighthearted “news” people would, if you can forgive the pun, gobble up.

But since you’re reading Hackaday, these images probably left you with more questions than answers. Who made the hardware, what software is it running, and of course, why does a cow need VR? Unfortunately, the answers to the more technical questions aren’t exactly forthcoming. Even tracking the story back to the official press release from the Ministry of Agriculture and Food of the Moscow Region doesn’t tell us much more than we can gather from the image itself.

But it does at least explain why somebody went through the trouble of making a custom bovine VR rig: calm cows produce more milk. These VR goggles, should they pass their testing and actually be adopted by the Russian dairy industry, will be the newest addition to a list of cow-calming hardware devices that farmers have been using for decades to get the most out of their herds.

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The Open Makers Cube: Have Hack, Will Travel

Don’t bother denying it, we know your workbench is a mess. A tangled pile of wires, tools, and half-completed projects is standard decor for any hardware hacker. In fact, if you’ve got a spotless work area, we might even be a bit skeptical about your credentials in this field. But that’s not to say we wouldn’t be interested in some way of keeping the electronic detritus in check, perhaps something like the Open Makers Cube created by [technoez].

This all-in-one hardware hacking station uses DIN rails and 3D-printed mounting hardware to allow the user to attach a wide array of tools, gadgets, and boards to the outside surface where they’re easily accessible. The OpenSCAD design includes mounts for the usual suspects like the Raspberry Pi, Arduino Uno, and general purpose breadboards. Of course, your own custom mounts are just a few lines of code away.

The Cube also includes a lighted magnifying glass on a flexible arm so you can zoom in on what you’re working on, a simple “helping hands” attachment, and provisions for internal USB power. It even features angled feet so the front side of the cube is held at a more comfortable viewing angle. All of which is held together by a lightweight and portable frame built from square aluminum tubing.

We can understand if you’ve got some doubts about the idea of mounting all of your tools and projects to the side of a jaunty little cube. But even if the jury is still out on the mobile workspace concept, one thing is for sure: the Open Makers Cube is easily one of the best documented projects we’ve seen in recent memory. Thanks to NopSCADlib, [technoez] was able to generate an exploded view and Bill of Materials for each sub-assembly of the project. If you’ve ever needed proof that NopSCADlib was worth checking out, this is it.

Building A Mechanical Oscillator, Tesla Style

Before Tesla devised beautifully simple rotary machinery, he explored other methods of generating alternating current. One of those was the mechanical oscillator, and [Integza] had a go at replicating the device himself. (Video, embedded below the break.)

Initial attempts to reproduce the technology using 3D-printed parts were a failure. The round cylinder had issues sealing, and using O-ring seals introduced too much friction to allow the device to oscillate properly. A redesign that used external valving and a square cylinder proved more successful.

Once the oscillator was complete, the output shaft was fitted with magnets and a coil to generate electricity. After generating a disappointing 0.14 volts, [Integza] went back and had a look at the Maxwell-Faraday equations. Using this to guide the design, a new coil was produced with more turns, and the magnetic flux was maximised. With this done, the setup could generate seven volts, enough to light several LEDs.

While it’s not a particularly efficient generator, it’s a great proof-of-concept. Yes, Tesla’s invention worked, but it’s easy to see why he moved on to rotary designs when it came to real-world applications. We’ve seen [Integza] take on other builds too, like the ever-popular Tesla turbine.

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