NPAPI And The Hot-Pluggable World Wide Web

January 9, 2026 by Maya Posch 1 Comment

In today’s Chromed-up world it can be hard to remember an era where browsers could be extended with not just extensions, but also with plugins. Although for those of us who use traditional Netscape-based browsers like Pale Moon the use of plugins has never gone away, for the rest of the WWW’s users their choice has been limited to increasingly more restrictive browser extensions, with Google’s Manifest V3 taking the cake.

Although most browsers stopped supporting plugins due to “security concerns”, this did nothing to address the need for executing code in the browser faster than the sedate snail’s pace possible with JavaScript, or the convenience of not having to port native code to JavaScript in the first place. This led to various approaches that ultimately have culminated in the WebAssembly (WASM) standard, which comes with its own set of issues and security criticisms.

Other than Netscape’s Plugin API (NPAPI) being great for making even 1990s browsers ready for 2026, there are also very practical reasons why WASM and JavaScript-based approaches simply cannot do certain basic things.

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Repairing Brittle Plastic Retro Computer Cases

January 8, 2026 by Maya Posch 11 Comments

Using UV resin as glue for new case clips. (Credit: More Fun Making It, YouTube)

As computers like the venerable breadbox Commodore 64 age, their plastic doesn’t just turn increasing shades of yellow and brown, the ABS plastic also tends to get brittle. This is a problem that seems to plague many plastic cases and enclosures, but fortunately there are some ways to halt or even reverse the heavy toll of time, with the [More Fun Making It] YouTube channel exploring a number of methods, including UV-curable resin, PETG 3D-printed clips and silicone molds.

Aside from large-scale damage, screw posts tend to snap off a lot, either during shipping or when merely trying to open the case. The same is true for the clips around the edge of the C64 case, which rarely survive that long. Gluing a case clip back on with epoxy or such somewhat works, but is messy and not that durable.

Instead UV resin is used, together with newly printed clips in translucent PETG. The remnants of the old clips are removed, followed by the application of the resin. The clips are actually a modified version of a VIC-20 case clip design by [Ken Mills]. With the UV resin as glue, curing is almost instant with a UV lamp unlike the tedious process with epoxy.

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The Full-Sized 32-Wheeled, Articulated Bus Built For A 1976 Movie

January 8, 2026 by Maya Posch 31 Comments

Regardless of what your opinion is on cult-classic movies that got mixed-to-negative box office reviews when they were released, you have to admire the ones that went all out on practical effects and full-size constructions rather than CGI and scale models. Case in point the 1976 satirical comedy film The Big Bus that featured an absolutely massive articulated double-decker bus. With 32 wheels and multiple levels you’d think that a scale model would be used since most interior shots were done in the studio, but instead they built a real bus.

In this video by [Timeworn lengends] the genesis and details of the vehicle are covered. At the core of this road-worthy bus are two cabover International trucks, which were temporarily attached with a quick-release mechanism and required a second driver for the rear section who followed radio instructions for steering. In 1976 dollars, the entire bus prop cost between $250,000 and $500,000 USD to construct — making it one of the most expensive props ever made, especially considering the relatively low budget.

A fiberglass shell gave the bus its characteristic design, with the over the top ‘nuclear reactor’ propulsion befitting the comedy satire. Although the bowling alley and swimming pool were not really inside the bus, there was a functional bar installed along with the functional cockpit at the front.

Despite the movie flopping at the box office and critics being very mixed on its merits, it’s hard to deny that this bus prop is very unique and probably has a big part in why the movie has become a cult classic. As for the closest real-life equivalent, there is the articulated, double-decker Neoplan Jumbocruiser, which had its own troubled history.

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The Issue With Wii U Gamepads And How To Clone Them

January 8, 2026 by Maya Posch 7 Comments

The Wii U running Mario Kart with the Gamepad duplicating the main screen. (Credit: MattKC, YouTube)

How hard would it be to clone the Wii U gamepad, the quirky controller with its unique embedded screen? This is the question that [MattKC] faced as he noticed the complete lack of Wii U gamepad replacements from either Nintendo or third-parties, leading him down the rabbit hole of answering said question.

Although unloved and even despised in compared to the Nintendo Wii, the Wii U was a solid system in its own right. One of its interesting additions was the gamepad controller, whose screen games used for features like a private screen during multiplayer and 3DS-like map screens. Its main weakness is however that the Wii U gamepad was considered an irreplaceable part of the console, which is obviously not fun if your gamepad breaks and your console along with it.

The Wii U console and gamepad communicate via 5 GHz 802.11n WiFi, but in order to deter other parties from simply hopping onto the access point, Nintendo slightly obfuscated this WiFi standard. Specifically the WPA authentication was modified by a byte swap in the PTK, rendering every existing WiFi stack incompatible with the Wii U.

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Co-Extrusion Carbon Fiber FDM Filament Investigated

January 7, 2026 by Maya Posch 5 Comments

After previously putting carbon fiber-reinforced PLA filament under the (electron) microscope, the [I built a thing] bloke is back with a new video involving PLA-CF, this time involving co-extrusion rather than regular dispersed chopped CF. This features a continuous CF core that is enveloped by PLA, with a sample filament spool sent over by BIQU in the form of their CarbonCore25 filament.

In the previous video chopped CF in PLA turned out to be essentially a contaminant, creating voids and with no integration of the CF into the polymer matrix. Having the CF covered by PLA makes the filament less abrasive to print, which is a definitely advantage, but does it help with the final print’s properties? Of note is that this is still chopped CF, just with a longer fiber length (0.3-0.5 mm).

Samples of the BIQU filament were printed on a Bambu Lab H2D printer with AMS. In order to create a clean fracture surface, a sample was frozen in liquid nitrogen to make it easy to snap. After this it was coated with gold using a gold sputtering system to prepare it for the SEM.

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Repairing A Self-Destructing SRS DG535 Digital Delay Generator

January 7, 2026 by Maya Posch No comments

There’s a lot of laboratory equipment out there that the casual hobbyist will never need to use, but that doesn’t mean you wouldn’t snap it up if the price is right. That’s what happened when [Tom Verbeure] saw a 1980s digital delay generator at a flea market for $40. Not only is it an excellent way to learn something about these devices, but it also provides a fascinating opportunity to troubleshoot and hopefully fix it. Such was also the case with this Stanford Research Systems (SRS) DG535 that turned out to be not only broken, but even features an apparently previously triggered self-destruct feature.

These devices are pretty basic, with this specimen incorporating a Z80 MPU in addition to digital and analog components to provide a programmable delay with 12.5 nanosecond resolution on its output channels after the input trigger is sensed. For that reason it was little surprise that the problem with the device was with its supply rails, of which a few were dead or out of spec, along with a burned-out trace.

Where the self-destruct feature comes into play is with the use of current boosting resistors around its linear regulators. Although these provide a current boost over what the regulator can provide, their disadvantages include a tendency towards destruction whenever the load on the supply rail decreases. This could for example occur when you’re debugging an issue and leave some of the PCBs disconnected.

Unsurprisingly, this issue caused the same charred trace to reignite during [Tom]’s first repair attempt, but after working up the courage over the subsequent 18 months the second repair attempt went much better, also helped by the presence of the mostly correct original board schematics.

Ultimately the fixes were relatively modest, involving replacing a discrete diode bridge with an integrated one, fixing the -9 V rail with a bodge wire, and replacing the LCD with its busted AC-powered backlight with a modern one with a LED backlight. Fortunately running the 5 V rail at 7 V for a while seemed to have caused no readily observable damage, nor did flipping connectors because of SRS’ inconsistent ‘standards’ for its connector orientations.

Sadly, when [Tom] emailed SRS to inquire about obtaining an updated schematic for this unit — which is currently still being sold new for $4,495 — he merely got told to send his unit in for repair.

Faraday Effects Emerging From The Optical Magnetic Field

January 6, 2026 by Maya Posch 14 Comments

As an electromagnetic radiation phenomenon, it’s perhaps not so surprising that light is affected by a magnetic field. This Faraday effect (FE) has been used since its discovery by [Michael Faraday] in 1845 for a wide range of applications, allowing for the manipulation of light’s polarization, something which is very useful in the field of optics, for remote sensing and spintronics. Despite this being such a well-known property of EM radiation a recent study claims to have made a new discovery here, with what they claim is about the ‘optical magnetic field’.

Their central claim is that it is not just the electrical component that contributes to the FE, but also the magnetic one, due to Zeeman energy that expresses itself from the magnetic component as a form of inverse FE. Based on their experimental findings they estimate that it contributes to the final measured FE by about 17% at a wavelength of 800 nm.

While definitely a very niche physics paper, and with no immediate implications, if independently confirmed it could deepen our understanding of the Faraday effect, and how to use it in future technologies.