Earth’s Oxygen Levels And Magnetic Field Strength Show Strong Correlation

June 23, 2025 by Maya Posch 13 Comments

Time series of O2 (blue) and VGADM (red). (Credit: Weijia Kuang, Science Advances, 2025)

In an Earth-sized take on the age-old ‘correlation or causality’ question, researchers have come across a fascinating match between Earth’s magnetic field and its oxygen levels since the Cambrian explosion, about 500 million years ago. The full results by [Weijia Kuang] et al. were published in Science Advances, where the authors speculate that this high correlation between the geomagnetic dipole and oxygen levels as recorded in the Earth’s geological mineral record may be indicative of the Earth’s geological processes affecting the evolution of lifeforms in its biosphere.

As with any such correlation, one has to entertain the notion that said correlation might be spurious or indirectly related before assuming a strong causal link. Here it is for example known already that the solar winds affect the Earth’s atmosphere and with it the geomagnetic field, as more intense solar winds increase the loss of oxygen into space, but this does not affect the strength of the geomagnetic field, just its shape. The question is thus whether there is a mechanism that would affect this field strength and consequently cause the loss of oxygen to the solar winds to spike.

Here the authors suggest that the Earth’s core dynamics – critical to the geomagnetic field – may play a major role, with conceivably the core-mantle interactions over the course of millions of years affecting it. As supercontinents like Pangea formed, broke up and partially reformed again, the impact of this material solidifying and melting could have been the underlying cause of these fluctuations in oxygen and magnetic field strength levels.

Although hard to say at this point in time, it may very well be that this correlation is causal, albeit as symptoms of activity of the Earth’s core and liquid mantle.

Replacing Crude Oil Fractional Distillation With Microporous Polyimine Membranes

June 21, 2025 by Maya Posch 12 Comments

Currently the typical way that crude oil is processed involves a fractional distillation column, in which heated crude oil is separated into the various hydrocarbon compounds using distinct boiling points. This requires the addition of significant thermal energy and is thus fairly energy intensive. A possible alternative has been proposed by [Tae Hoon Lee] et al. with a research article in Science. They adapted membranes used with reverse-osmosis filtration to instead filter crude oil into its constituents, which could enable skipping the heating step and thus save a lot of energy.

The main change that had to be made was to replace the typical polyamide films with polyimine ones, as the former have the tendency to swell up – and thus becomes less effective – when exposed to organic solvents, which includes hydrocarbons. During testing, including with a mixture of naphtha, kerosene and diesel, the polyimine membrane was able to separate these by their molecular size.

It should be noted of course that this is still just small scale lab-testing and the real proof will be in whether it can scale up to the flow rates and endurance required from a replacement for a distillation column. Since this research is funded in part by the fossil fuel industry, one can at least expect that some trial installations will be set up before long, with hopefully positive results.

EU Ecodesign For Smartphones Including Right To Repair Now In Effect

June 21, 2025 by Maya Posch 81 Comments

Starting June 20th, any cordless phone, smartphone, or feature phone, as well as tablets (7 – 17.4″ screens) have to meet Ecodesign requirements. In addition there is now mandatory registration with the European Product Registry for Energy Labelling (EPREL). The only exception are phones and tablets with a flexible (rollable) main display, and tablets that do not use a mobile OS, i.e. not Android, iPadOS, etc. These requirements include resistance to drops, scratches and water, as well as batteries that last at least 800 cycles.

What is perhaps most exciting are the requirements that operating system updates must be made available for at least five years from when the product is last on the market, along with spare parts being made available within 5-10 working days for seven years after the product stops being sold. The only big niggle here is that this access only applies to ‘professional repairers’, but at least this should provide independent repair shops with full access to parts and any software tools required.

On the ENERGY label that is generated with the registration, customers can see the rating for each category, including energy efficiency, battery endurance, repairability and IP (water/dust ingress) rating, making comparing devices much easier than before. All of this comes before smartphones and many other devices sold in the EU will have to feature easily removable batteries by 2027, something which may make manufacturers unhappy, but should be a boon to us consumers and tinkerers.

PVA Filament: Not Always What It Seems

June 20, 2025 by Maya Posch 5 Comments

PVA filament with a core. (Credit: Lost In Tech)

PVA filament is an interesting filament type, for the reason that while it can be printed with any FDM printer, it supposedly readily dissolves in water, which is also the reason why PVA glue sticks are so popular when doing crafts and arts with young children. This property would make PVA filament ideal for printing supports if your printer can handle two different materials at the same time. So surely you can just pick any old PVA filament spool and get to printing, right? As [Lost in Tech] found out, this is not quite the case.

As an aside, watching PVA supports dissolve in water set to classical music (Bach’s Air from Orchestral Suite No. 3) is quite a pleasant vibe. After thus watching the various PVA prints dissolve for a while, we are left to analyze the results. The first interesting finding was that not every PVA filament dissolved the same way, or even fully.

The first gotcha is that PVA can stand for polyvinyl acetate (the glue stick) or polyvinyl alcohol (a thickener and stabilizer) , with the ‘PVA’ filament datasheets for each respective filament showing various combinations of both types of PVA. This results in wildly different properties per filament, both in terms of Shore hardness, their printability, as well as their ability to dissolve in water. Some of the filament types (Yousu, Reprapper) also have an outer layer and inner core for some reason.

Ultimately the message appears to be that ‘PVA’ filament requires a fair bit of research to have any chance of having a relatively trouble-free printing experience.

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Building Diode And Diode-Transistor Logic Gates

June 20, 2025 by Maya Posch 7 Comments

AND gate implemented as diode-resistor logic. (Credit: Anthony Francis-Jones)

The fun part about logic gates is that there are so many ways to make them, with each approach having its own advantages and disadvantages. Although these days transistor-transistor logic (TTL) is the most common, diode-transistor logic (DTL) once was a regular sight, as well as diode-resistor logic (DRL). These logic gates are the topic of a recent video by [Anthony Francis-Jones], covering a range of logic gates implemented using mostly diodes and resistors.

Of note is that there’s another class of logic gates: this uses resistors and transistors (RTL) and preceded DTL. While DRL can be used to implement AND and OR logic gates, some types of logic gates (e.g. NOT) require an active (transistor) element, which is where DTL comes into play.

In addition to the construction of a rather nifty demonstration system and explanation of individual logic gates, [Anthony] also shows off a range of DTL cards used in the Bendix G-15 and various DEC systems. Over time TTL would come to dominate as this didn’t have the diode voltage drop and other issues that prevented significant scaling. Although the rise of VLSI has rendered DRL and DTL firmly obsolete, they still make for a fascinating teaching moment and remind us of the effort over the decades to make the computing device on which you’re reading this possible.

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Iron Nitride Permanent Magnets Made With DIY Ball Mill

June 19, 2025 by Maya Posch 10 Comments

Creating strong permanent magnets without using so-called rare earth elements is an ongoing topic of research. An interesting contestant here are iron nitride magnets (α”-Fe₁₆N₂), which have the potential to create permanents magnets on-par with with neodymium (Nd₂Fe₁₄B) magnets. The challenging aspect with Fe-N magnets is their manufacturing, with recently [Ben Krasnow] giving it a shot over at the [Applied Science] YouTube channel following the method in a 2016 scientific paper by [Yanfeng Jiang] et al. in Advanced Engineering Materials.

This approach uses a ball mill (like [Ben]’s planetary version) with ammonium nitrate (NH₄NO₃) as the nitrogen source along with iron. After many hours of milling a significant part of the material is expected to have taken on the α”-Fe₁₆N₂phase, after which shock compaction is applied to create a bulk magnet. After the ball mill grinding, [Ben] used a kiln at 200°C for a day to fix the desired phase. Instead of shock compaction, casting in epoxy was used as alternative.

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StatusNotifierItem: How Standard Non-Standards Tear Linux Desktops Apart

June 17, 2025 by Maya Posch 63 Comments

Theoretically when you write a GUI-based application for Linux there are standards to follow, with these all neatly documented over at the Freedesktop website. However, in reality, Freedesktop is more of a loose collection of specifications, some of which are third-party specifications that have somehow become the de facto standard. One example of this is the StatusNotifierItem spec that provides a way for applications to create and manage a ‘system tray’ icon.

This feature is incredibly useful for providing a consistent way to users for quickly accessing functionality and to see application status. Unfortunately, as [Brodie Robertson] notes in a recent video, not everyone agrees with this notion. Despite that Windows since 95 as well as MacOS/OS X and others provide similar functionality, Gnome and other Linux desktop environments oppose such system tray icons (despite a popular extension), with an inevitable discussion on Reddit as a result.

Although the StatusNotifierItem specification is listed on the Freedesktop website, it’s under ‘Draft specifications’ along with another, apparently internal-but-unfinished System tray proposal. Meanwhile DEs like KDE have integrated first-party support (KStatusNotifierItem) for the specification. There’s currently an active Freedesktop Gitlab discussion on the topic, whether StatusNotifierItem should even be in the list, or become an approved specification.

With the specification mired in bureaucracy and multiple camps pushing their own idea of what ‘the Linux desktop’ should look like, it feels like a real shame that the Linux Standard Base effort died a decade ago. Users and developers just want their desktop environment to come with zero surprises, after all.

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