hello sylus girlies!! i'm trying to find a fanfic where sylus arrives at the reader's apartment with a bag and dresses the reader up and dresses her down quite literally..... so please if you know the fanfic please tag me in the comments or comment if you know the author (i think one of the tags/content warnings were dollification but im not sure) thank you!!
edit!!: the fic was found !!! it was All dolled up by @asiatic-apple!!
I rescued a dog with my boyfriend! He's 7 years old and was about to be thrown to the street by his owners, he's clearly neglected but we've been giving him lots of love. He's a golden retriever and it's my first time having a big dog!
I’ve been thinking an awful lot about Sokka’s meteorite sword lately (like, a lot a lot). Since it happens to fall at the exact intersection of my areas of interest, I thought I’d put together a bit of an analysis on said sword, the meteorite it came from, and the implications it has for the broader Avatar universe.
First things first let’s clarify a couple terms here: a meteorite is, technically speaking, a particle of solid material that has fallen to the surface of a planetary body from space. A meteoroid is that same fragment of rock before it reaches the ground. A meteor is the light created by the meteoroid as it transits through the atmosphere, otherwise known as a fireball or shooting star. If we’re being totally accurate, Sokka’s sword would be referred to as a meteorite sword, not a meteor sword (I’m looking at you, atla wiki).
Now let’s consider the actual fall of the meteorite, and what the atla team got right and wrong:
1) The meteor shower: meteor showers occur at specific times of year when the orbit of a planet passes through an area that is relatively dense in particle which burn up in the planet’s atmosphere. Most of these particles are quite small, usually no more than the size of a grain of sand, and meteor shows are not specifically associated with the fall of meteorites, although it would not be impossible for a meteorite to result during a meteor shower. Interestingly, during a meteor shower the meteors will all appear to originate from a single point, while the meteor which produced Sokka’s meteorite did not originate from the same place as the other meteors – which would suggest it came from another direction and location, and its fall at the same time was merely a coincidence.
2) The dark flight stage: Smaller meteoroids which do not produce large craters when they impact, but they will produce a fireball as they transit the atmosphere and are heated and ablated. However, the atmosphere slows them as they transit, and once they reach terminal velocity, where ablation stops, they enter a stage know as dark flight, where the stone continues to fly through the air for a period of time, but no more light is produced. This is more common for smaller stones, which are more easily slowed by the atmosphere, but large meteorites, including the largest single meteorite ever recovered, Hoba (which interestingly does not have an associated crater despite its large size – perhaps as a result of its shape causing it to slow significantly during its fall), may have experienced a similar effect. The reason I think this meteorite should have had a dark flight stage is because it remained intact upon impact.
3) The crater – this meteorite did not, however, have a dark flight stage – rather, it produced a crater. Whether or not an impacting meteorite will result in a crater depends on a variety of factors, primarily its velocity and mass, but also affected by its makeup, what it is impacting into, the gravity of the planet (which primarily determines the shape of the crater for a particular impactor), etc. A general rule of thumb is that a stone larger than 10 meters in diameter and 100 tons will likely produce a crater. That is obviously not the case as shown here, but that does not necessarily mean this meteorite could not have produced a crater. The Whitecourt meteorite, for example, is believed to have been only ~1 meter in diameter, and produced a crater 36 meters in diameter and 6 meters deep (the crater pictured above). However, what is wrong here is that generally meteorites which produce craters will vaporize, melt, or fragment on impact, which is not the case with Sokka’s meteorite. Meteorites which remain intact tend to be traveling much slower, and so do not generally produce craters – hence either this intact meteorite should not have formed a crater and would probably have experienced dark flight, or else the crater should not have a single intact meteorite like it does.
4) The strike: meteorite strikes are violent processes which excavate material surrounding the strike location – this is what forms the crater depression. This material then falls back to the ground, forming what is called an ejecta blanket around the crater, which is not observed in the show. But, meteorite impacts certainly can cause fires – returning to the Whitecourt crater, above the layer of its ejecta blanket is a layer of charcoal thought to have formed as a result of a forest fire started by the impact!
But could Sokka even have made a sword out of the meteorite material? The simple answer is yes – there are numerous historical cases of meteoritic iron being used to make blades (such as the dagger pictured above), including, interestingly enough, by people living in the Canadian arctic and Greenland, and there’s even a replica of Sokka’s sword forged using meteoritic iron (in part). This is due mainly to the fact that meteorites are an easy source of native iron, while other sources of iron such as the minerals magnetite and hematite require significant processing such as smelting to recover their iron components.
The more complicated answer is a heavy maybe, for a few reasons: While it is true that some meteorites are primarily composed of metal – which are called iron meteorites (top image), although they contain a fair amount of nickel as well, and often contain mineral impurities – these make up only about 5% of all meteorites ever recovered. The remainder is mostly what are known as stony meteorites (bottom image), and although these tend to have higher proportions of metal and iron-bearing minerals than many Earth rocks, it would not be nearly enough to forge a sword from. So, in other words, Sokka would need to be incredibly lucky.
The other reason has to do primarily with the nature of iron meteorites compared to most steel. Namely the mineral inclusions previously mentioned would likely constitute impurities in the metal which would actually weaken it, rather than strengthen it. Additionally, most steel contains at least some quantity of carbon, which helps the blade hold an edge and increases its strength (although it also contributes to brittleness).
But, is Sokka’s sword even made out of iron at all? Meteoritic iron doesn’t have any special properties compared to terrestrial iron that would make it stronger or able to cut through other metals, and nothing that would inherently produce the characteristic black colour of Sokka’s sword. So maybe in the Avatar universe, their meteorites are not made of iron-nickel metal at all, but some other kind of metal…
Take zirconium on the other hand. When heated to high temperatures (as is presumably the case during forging), the oxidation of the outer surface of the metal does produce a black layer, like we see on Sokka’s sword, and zirconium oxide knives do exist – of course, zirconium oxide is actually a ceramic, not a metal (the making of which is more complicated than just heating the metal), and so while its hardness is greater than that of steel, and reportedly zirconium oxide knives appear to hold their edge better (which has to do with the way ceramic blade wear in comparison to steel blades), they are also far more brittle than steel. Still, a zirconium blade could potentially explain some of the interesting properties of Sokka’s sword.
What, then, does this say about the Avatar world? Well to discuss that you need to know a little bit about iron meteorites. These meteorites are sourced from the metallic cores of fragmented planetesimals in the asteroid belt. Just like the core of the Earth, they are made up mostly of iron and nickel, because these are two of the most common heavy metallic elements, which separate as a result of gravitational forces because of their mass during planetary differentiation (when planetary bodies segregate into layers of crust, mantle, and core). So perhaps in the atla universe, zirconium is in high enough abundance that it could form at least a portion of the cores of planets there.
Which is weird, to say the least. Not just because its inconsistent with our own solar system, but because in the universe in general, the abundances of elements heavier than iron tend to drop off quite sharply, because they’re not generally produced during the normal life of an average star. Since zirconium (Zr) is heavier than iron (Fe), it should be far less common. But if it really were what was making up the metal in Sokka’s sword, their solar system would certainly be quite a remarkable one.
Of course, its far, far more likely that the look and properties of Sokka’s sword, and its meteoritic origin are just an excuse to give him a badass weapon. And honestly, he deserves it, so we can overlook the inaccuracy, even if it is fun to think about…
Another thing about Shadowlands I straight up forgot was the part where they’re running through what they think are heaps of trash only to find out they’re not really trash they’re discarded bodies of grey guards that are still half alive when they start talking. What the fuck. What the Fuck.
@pamgrl0926 that's true we dont know What happened but it obviously happened because Woojin Chose to do something he shouldn't, He chose to make mistakes which in turn caused his departure and broke his promise to Stray Kids and to me personally I'm not ok with supporting someone like that. If you feel differently then that's fine, I respect that, but again my personal opinion if you choose to do something, knowing the consequence, knowing it could hurt others, I just don't think that's okay.