NASA is going back to the Moon! We’ll follow the crew of Artemis II every step of the way.
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Re-Learning How To Run
As I write this, four astronauts are on their way around the moon for the first time in 50 years. A lot us have asked ourselves just exactly why you’d send people out that far when the environment is so hostile and we have increasingly competent robots that could do the jobs in their place. If anything, that’s even more true now than it was back in the day of the Apollo program, when the remote operations capability was a lot more constrained. But having people, potentially in the near future, on the lunar surface remains qualitatively different.
I was recently re-watching some of the footage from Apollo 16 when the astronauts were driving around in the Lunar Roving Vehicle, and the discussions that they’re having about the lunar geology that they can see for the first time with their own eyes is very convincing. Having people in situ tightens the loop of “hey, that’s interesting”, “let’s take a closer look”, and “I wonder what that means” in a way that minutes or hours of transmission time, and sterile observation of photos on a computer monitor just break. In comparison, our Mars rovers move excruciatingly slowly, the data comes back through a very thin pipe, and it takes months or years to analyze.
Of course, there is danger to human life; it’s a lot more expensive to get people safely to, and importantly back from, the moon than it would be with a disposable robot. Comparison with the Mars rovers is also unfair because travel to Mars is another scale entirely. Even if it does make sense to send humans for exploration on the moon, it may not make sense to do the same on the red planet, in the near future or ever. Given all that, I’m stoked that we can see through the robots eyes, but if all else were equal, I’m sure that we’d learn more from human explorers.
While in a lot of ways the Artemis I and now the Artemis II missions are underwhelming in comparison to the many “firsts” of Apollo, I absolutely appreciate them for what they are: a shakedown trial of a set of technologies and practices that we used to grasp, but which have atrophied over the last five decades. If a new generation of scientists is to put feet onto regolith, we need to learn to walk before they can run, or rover. In that spirit, I’ll be crossing my fingers for the future of manned spaceflight over the next week and a half.
Turning A Bluetooth Caliper Into A FreeCAD Input Device
It’s a common ritual: whipping out those calipers or similar measuring devices to measure part of a physical object that we’re trying to transfer into a digital model in an application like FreeCAD. Wouldn’t it be nice if said measurements were to be transferred instantaneously into the model’s sketch, including appropriate units of measurement? That’s essentially what [stv0g] has done by merging a Sylvac Bluetooth-enabled caliper and FreeCAD using a plugin.
Key to the whole operation is a Bluetooth-enabled caliper like the Sylvac S_Cal EVO that [stv0g] managed to score on EBay for a mere €90 when it normally goes for multiple times that amount. This has BLE built in, using BLE’s standard GATT profiles for device communications specifications. Along with the provided Sylvac developer tools, this made it relatively easy to develop the InstrumentInput addon for FreeCAD.
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Cleaning An IBM 5150, And The Perfect Period PCB Soldermask
Now that early PCs have moved firmly from the realm of e-waste into being collector’s items, it’s worth putting in some effort to restore them if you find one. [Epictronics] has an early IBM 5150, the ancestor of all today’s PCs, and is bringing it back to life. Along the way, he’s building a replica AdLib sound card, making a useful discovery about how to make new parts look authentic.
The video below the break is a gentle journey through an early PC teardown, followed by the construction of the replica sound card. Here’s the interesting nugget of information: these new cards are careful recreations of the originals, but they just don’t look right. It seems modern soldermask is too shiny, and as luck would have it, there’s another option that is much more period-authentic. We hadn’t noticed matte green was available, but it certainly captures the look of those days much better.
As you might expect, such an old machine has a range of dead capacitors and a few chips. There’s a lucky escape with a Varta battery on an expansion card, having very little leakage, and part of one of the floppy drives needs some surgery. It’s gentle hacking that’s engaging to watch, and of course, at the end, we’re rewarded with the thing booting properly.
You might think reproducing a sound card is unusual, but we’ve seen it a number of times.
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Tracking Parts Box Usage With Stickers
Many of us are guilty of toeing the line between having a ready supply of components at hand and simply hoarding for fear of throwing anything out. In a first admission of this problem, [Scott Lawson] decided to implement a couple of changes to assess his own position on this sliding scale.
The first change was to only put parts, components, and supplies in transparent boxes. Next was to add a sticker on each box noting the contents and box creation date. This was extended to plastic bags inside the boxes when further subdivision was warranted.
The Smallest Dialup ISP Is A Raspberry Pi And A Prison Phone
There were a plethora of tiny, local ISPs in the days of dial-up internet. Along with the big providers, many cities would have more than one. Some of those have survived broadband, but none of them were as small as [Jeff Geerling]’s Pi ISP — a tiny dialup ISP built so his Aunt’s old G3 MacBook can get online at 36kbps, as God and [Robert Khan] intended.
Hardware-wise, the Raspberry Pi is at one end of the chain, and your retrocomputer at another. In between, you’ll have a USB modem plugged into the Pi, and a device called a “two-way line simulator” to create a dial tone for that plain-old-telephone goodness. [Jeff] notes that these were commonly used in prisons for the phones that visitors use to talk to inmates.
Of course, since these devices are designed strictly for voice transmissions, which POTS was built for, you’re not going to get over 36 kbps, and that’s even with high-quality gear. The cheaper options might drop you down to 28k… just like with an ISP back in the day. ‘You get what you pay for’ is very rarely false.
Now, you can use this technology to just connect two computers together — as we’ve featured previously — but [Jeff] has gone the extra mile to put together, via Ansible, an easy-to-install software package that will let the Raspberry Pi act just like your ISP’s servers once did, and connect you to that series of tubes once called the World Wide Web. Of course, the World Wide Web isn’t built for dial-up anymore, so you’re going to be waiting… a while. Hackaday’s front page isn’t especially heavy, weighing about 4MB at the time of this writing, but that’s 15 minutes of load time, and you still aren’t reading the articles.
You also won’t be able to access much on old machines that can’t do HTTPS, but [Jeff] thought of that and bundles [rdmark]’s MacProxyClassic to translate the modern web into HTML tags that Netscape can understand and serve them over HTTP. You’ll still be waiting for our modern bloat, but perhaps not quite so long.
If you want the “authentic” dial-up experience, you’ll need to see the lightweight webpages of Yesteryear, and MacProxyClassic contains a Wayback Machine extension for that purpose. We featured a similar project a while back that did that, but without all the joys of dial-up. Now get off the computer, we’re expecting a call!
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Exposing A Radiation-Hardened 2.4 GHz Wi-Fi Receiver To 500 Kilograys
From outer space to down here on Earth, there are many places where ionizing radiation levels are high enough that they effectively bar access for humans, but also make life miserable for anything containing semiconductor technology. This is especially true for anything involving wireless communications, such as Wi-Fi. However, recently Japanese researchers have created a Wi-Fi chip that is claimed to be so radiation-hardened that it can be used even in gamma ray-rich environments, such as in the worst contaminated depths of the Fukushima Daiichi nuclear reactor.
The indicated dose exposure of 500 kilograys that the chip survived during testing is quite significant. A single gray (Gy) is the absorption of one joule of energy per kilogram of matter. In radiation therapy, a solid epithelial tumor can receive as much as 60 to 80 Gy in a single dose, for example.
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Scrap Vintage Camera Goes Digital With Scanner Parts
Every collector ends up with items that are worthless, usually because they are broken or incomplete. When [Graindead] found a 1920s glass-plate reflex camera for pennies with plenty of missing parts, it was obvious that what he had was a piece of junk. Throw it away? No, he turned it digital with the aid of a small document scanner.
A reflex camera like this one is the ancestor of the 35mm single-lens reflex cameras we may still be familiar with today, in that is has a flip-up mirror inside to bounce the light onto a ground glass screen. The photographer can see what the lens sees to set up the shot, before flipping the mirror out of the way and exposing the glass plate film by pulling out a dark slide. This one was missing the ground glass and the lens, so he has to grind a replacement, and bodge in a similar-age Carl Zeiss Tessar lens.
In the video below you can see the build, and a range of pictures including some trichrome colour shots. It gives an imperfect result even compared to the same camera with its period film, but the point here is the art rather than the clarity. We’d take this one out with us, if it were ours.
For more vintage digital fun, have a look at a similar adaptation that shoots video.
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