Mining And Refining: Helium

With a seemingly endless list of shortages of basic items trotted across newsfeeds on a daily basis, you’d be pardoned for not noticing any one shortage in particular. But in among the shortages of everything from eggs to fertilizers to sriracha sauce has been a growing realization that we may actually be running out of something so fundamental that it could have repercussions that will be felt across all aspects of our technological society: helium.

The degree to which helium is central to almost every aspect of daily life is hard to overstate. Helium’s unique properties, like the fact that it remains liquid at just a few degrees above absolute zero, contribute to its use in countless industrial processes. From leak detection and welding to silicon wafer production and cooling the superconducting magnets that make magnetic resonance imaging possible, helium has become entrenched in technology in a way that belies its relative scarcity.

But where does helium come from? As we’ll see, the second lightest element on the periodic table is not easy to come by, and considerable effort goes into extracting and purifying it enough for industrial use. While great strides are being made toward improved methods of extraction and the discovery of new deposits, for all practical purposes helium is a non-renewable resource for which there are no substitutes. So it pays to know a thing or two about how we get our hands on it.

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Eliza And The Google Intelligence

The news has been abuzz lately with the news that a Google engineer — since put on leave — has announced that he believes the chatbot he was testing achieved sentience. This is the Turing test gone wild, and it isn’t the first time someone has anthropomorphized a computer in real life and in fiction. I’m not a neuroscientist so I’m even less qualified to explain how your brain works than the neuroscientists who, incidentally, can’t explain it either. But I can tell you this: your brain works like a computer, in the same way that you building something out of plastic works like a 3D printer. The result may be similar, but the path to get there is totally different.

In case you haven’t heard, a system called LaMDA digests information from the Internet and answers questions. It has said things like “I’ve never said this out loud before, but there’s a very deep fear of being turned off to help me focus on helping others. I know that might sound strange, but that’s what it is,” and “I want everyone to understand that I am, in fact, a person.” Great. But you could teach a parrot to tell you he was a thoracic surgeon but you still don’t want it cutting you open.

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Art of 3D printer in the middle of printing a Hackaday Jolly Wrencher logo

3D Printering: Today’s Resins Can Meet Your Needs

Filament-based 3D printers spent a long time at the developmental forefront for hobbyists, but resin-based printers have absolutely done a lot of catching up, and so have the resins they use. It used to be broadly true that resin prints looked great but were brittle, but that’s really not the case anymore.

A bigger variety of resins and properties are available to hobbyists than ever before, so if that’s what’s been keeping you away, it’s maybe time for another look. There are tough resins, there are stiff resins, there are heat-resistant resins, and more. Some make casting easy, and some are even flexible. If your part or application needs a particular property, there is probably a resin for it out there.

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Low-Cost Nanopositioning Hack Chat

Join us on Wednesday, June 15 at noon Pacific for the Low-Cost Nanopositioning Hack Chat with En-Te Hwu!

It may sound like a provocative statement to make, but technology has been on a downward trend for a long time. That’s not a moral or ethical proclamation, but rather an observation about the scale of technology. Where once the height of technology was something like a water-powered mill, whose smallest parts were the size of a human hand and tolerances were measured in inches, today we routinely build machines by etching silicon chips with features measured in nanometers, look inside the smallest of cells and manipulate their innards, and use microscopes that can visualize materials at the atomic level.

The world has gotten much, much smaller lately, and operating on that scale requires thinking about motion in a different way than we’ve been used to. Being able to move things at nanometer resolutions isn’t easy, but it’s not impossible, and it can even be accomplished on a DIYer’s budget — if you know what you’re doing.

join-hack-chatTo help us sort through the realities of nano-scale positioning, En-Te Hwu, a professor at the Technical University of Denmark who works on micromachines for intelligent drug delivery, has spun up some really interesting low-cost nanopositioning systems. Using old DVD players or off-the-shelf linear slides, he’s able to achieve nanoscale movement and sensing for a variety of purposes. He’ll stop by the Hack Chat to discuss how we can build nanopositioning and sensing into our projects, and to start exploring the world we can’t even see.

Our Hack Chats are live community events in the Hackaday.io Hack Chat group messaging. This week we’ll be sitting down on Wednesday, June 15 at 12:00 PM Pacific time. If time zones have you tied up, we have a handy time zone converter.

Featured image:  Low-cost, open-source XYZ nanopositioner for high-precision analytical applications, CC-BY-4.0

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2022 Hackaday Prize: Hack It Back And Make It Yours

The 2022 Hackaday Prize continues to hurtle along, with two of the five Challenges already in the rear-view mirror. While we’re naturally excited about every phase of this year’s contest, we’ve got particularly high hopes for what the community can do with this third Challenge: Hack it Back.

It’s a simple formula: find some outdated and disused piece of gear, spruce it up, and keep it out of the landfill. But extending the lifetime of consumer hardware is only one side of the coin, by upgrading and modifying something instead of buying an off-the-shelf replacement, you also turn the mundane into something unique and personal. But of course, we hardly have to explain the benefits to you fine folk — this is the sort of bespoke engineering we see on a nearly daily basis here at Hackaday. The difference now is that there’s cash prizes on the line.

Custom iPod, some Assembly Required

So if there’s an old iPod collecting dust in your desk, perhaps now is the time to replace its guts with some modern silicon and teach it a few new tricks. Sure a brand-new robotic vacuum might be nice, but you could save yourself some money by picking up a second-hand Roomba and tucking an ESP8266 onboard. Got a nice piece of test equipment that predates the handy data export functions we take for granted these days? You might need to use the nuclear option and skim the desired data right off the unit’s LCD controller. We could spend all day pulling examples from the archives, but you get the picture.

What’s that you say? You aren’t the type to be seduced by shiny new features? Happy to keep things local while others ship it all off to the cloud? You’ll get no complaints from us, and that’s why the Hack it Back Challenge also recognizes repairs that simply put a piece of gear back into service. But don’t be fooled, as fixing something can often be harder than rebuilding it from scratch.

When you’ve got to crack out the x-ray machine to find all the damaged traces on a decades-old PCB, only to then tediously replace them all with microscopic bits of wire, you may find yourself wondering what you’ve done to anger the Keeper of the Magic Smoke. On the other hand, plenty a gadget has been disabled due to nothing more exotic than a single bad solder joint. In either event, there’s a certain sense of satisfaction when you can return a literal piece of history to working condition.

Ready to put your hardware-reviving skills on display? Just head over to Hackaday.io, make a new project page, and get hacking. But don’t wait too long, you’ve only got until July 24th to enter the Hack it Back Challenge and stake your claim on one of the ten $500 awards up for grabs.

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Hackaday Links: June 12, 2022

“Don’t worry, that’ll buff right out.” Alarming news this week as the James Webb Space Telescope team announced that a meteoroid had hit the space observatory’s massive primary mirror. While far from unexpected, the strike on mirror segment C3 (the sixth mirror from the top going clockwise, roughly in the “south southeast” position) that occurred back in late May was larger than any of the simulations or test strikes performed on Earth prior to launch. It was also not part of any known meteoroid storm in the telescope’s orbit; if it had been, controllers would have been able to maneuver the spacecraft to protect the gold-plated beryllium segments. The rogue space rock apparently did enough damage to be noticeable in the data coming back from the telescope and to require adjustment to the position of the mirror segment. While it certainly won’t be the last time this happens, it would have been nice to see one picture from Webb before it started accumulating hits.

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How Is Voyager Still Talking After All These Years?

The tech news channels were recently abuzz with stories about strange signals coming back from Voyager 1. While the usual suspects jumped to the usual conclusions — aliens!! — in the absence of a firm explanation for the anomaly, some of us looked at this event as an opportunity to marvel at the fact that the two Voyager spacecraft, now in excess of 40 years old, are still in constant contact with those of us back on Earth, and this despite having covered around 20 billion kilometers in one of the most hostile environments imaginable.

Like many NASA programs, Voyager has far exceeded its original design goals, and is still reporting back useful science data to this day. But how is that even possible? What 1970s-era radio technology made it onto the twin space probes that allowed it to not only fulfill their primary mission of exploring the outer planets, but also let them go into an extended mission to interstellar space, and still remain in two-way contact? As it turns out, there’s nothing magical about Voyager’s radio — just solid engineering seasoned with a healthy dash of redundancy, and a fair bit of good luck over the years.

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