#peak minerals
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mostlysignssomeportents · 5 months ago
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Circular battery self-sufficiency
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I'm coming to DEFCON! On FRIDAY (Aug 9), I'm emceeing the EFF POKER TOURNAMENT (noon at the Horseshoe Poker Room), and appearing on the BRICKED AND ABANDONED panel (5PM, LVCC - L1 - HW1–11–01). On SATURDAY (Aug 10), I'm giving a keynote called "DISENSHITTIFY OR DIE! How hackers can seize the means of computation and build a new, good internet that is hardened against our asshole bosses' insatiable horniness for enshittification" (noon, LVCC - L1 - HW1–11–01).
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If we are going to survive the climate emergency, we will have to electrify – that is, transition from burning fossil fuels to collecting, storing, transmitting and using renewable energy generated by e.g. the tides, the wind, and (especially) the Sun.
Electrification is a big project, but it's not an insurmountable one. Planning and executing an electric future is like eating the elephant: we do it one step at a time. This is characteristic of big engineering projects, which explains why so many people find it hard to imagine pulling this off.
As a layperson, you are far more likely to be exposed to a work of popular science than you are a work of popular engineering. Pop science is great, but its role is to familiarize you with theory, not practice. Popular engineering is a minuscule and obscure genre, which is a pity, because it's one of my favorites.
Weathering the climate emergency is going to require a lot of politics, to be sure, but it's also going to require a lot of engineering, which is why I'm grateful for the nascent but vital (and growing) field of popular engineering. Not to mention, the practitioners of popular engineering tend to be a lot of fun, like the hosts of the Well That's Your Problem podcast, a superb long-form leftist podcast about engineering disasters (with slides!):
https://www.youtube.com/@welltheresyourproblempodca1465
If you want to get started on popular engineering and the climate, your first stop should be the "Without the Hot Air" series, which tackles sustainable energy, materials, transportation and food as engineering problems. You'll never think about climate the same way again:
https://pluralistic.net/2021/01/06/methane-diet/#3kg-per-day
Then there's Saul Griffith's 2021 book Electrify, which is basically a roadmap for carrying out the electrification of America and the world:
https://pluralistic.net/2021/12/09/practical-visionary/#popular-engineering
Griffith's book is inspiring and visionary, but to really get a sense of how fantastic an electrified world can be, it's gotta be Deb Chachra's How Infrastructure Works:
https://pluralistic.net/2023/10/17/care-work/#charismatic-megaprojects
Chachra is a material scientist who teaches at Olin College, and her book is a hymn to the historical and philosophical underpinnings of infrastructure, but more than anything, it's a popular engineering book about what is possible. For example, if we want to give every person on Earth the energy budget of a Canadian (like an American, but colder), we would only have to capture 0.4% of the solar energy that reaches the Earth's surface.
Now, this is a gigantic task, but it's a tractable one. Resolving it will require a very careful – and massive – marshaling of materials, particularly copper, but also a large number of conflict minerals and rare earths. It's gonna be hard.
But it's not impossible, let alone inconceivable. Indeed, Chachra's biggest contribution in this book is to make a compelling case for reconceiving our relationship to energy and materials. As a species, we have always treated energy as scarce, trying to wring every erg and therm that we can out of our energy sources. Meanwhile, we've treated materials as abundant, digging them up or chopping them down, using them briefly, then tossing them on a midden or burying them in a pit.
Chachra argues that this is precisely backwards. Our planet gets a fresh supply of energy twice a day, with sunrise (solar) and moonrise (tides). On the other hand, we've only got one Earth's worth of materials, supplemented very sporadically when a meteor survives entry into our atmosphere. Mining asteroids, the Moon and other planets is a losing proposition for the long foreseeable future:
https://pluralistic.net/2024/01/09/astrobezzle/#send-robots-instead
The promise of marshaling a very large amount of materials is that it will deliver effectively limitless, clean energy. This project will take a lot of time and its benefits will primarily accrue to people who come after its builders, which is why it is infrastructure. As Chachra says, infrastructure is inherently altruistic, a gift to our neighbors and our descendants. If all you want is a place to stick your own poop, you don't need to build a citywide sanitation system.
What's more, we can trade energy for materials. Manufacturing goods so that they gracefully decompose back into the material stream at the end of their lives is energy intensive. Harvesting materials from badly designed goods is also energy intensive. But if once we build out the renewables grid (which will take a lot of materials), we will have all the energy we need (to preserve and re-use our materials).
Our species' historical approach to materials is not (ahem) carved in stone. It is contingent. It has changed. It can change again. It needs to change, because the way we extract materials today is both unjust and unsustainable.
The horrific nature of material extraction under capitalism – and its geopolitics (e.g. "We will coup whoever we want! Deal with it.") – has many made comrades in the climate fight skeptical (or worse, cynical) about a clean energy transition. They do the back-of-the-envelope math about the material budget for electrification, mentally convert that to the number of wildlife preserves, low-income communities, unspoiled habitat and indigenous lands that we would destroy in the process of gathering those materials, and conclude that the whole thing is a farce.
That analysis is important, but it's incomplete. Yes, marshaling all those materials in the way that we do today would be catastrophic. But the point of a climate transition is that we will transition our approach to our planet, our energy, and our materials. That transition can and should challenge all the assumptions underpinning electrification doomerism.
Take the material bill itself: the assumption that a transition will require a linearly scaled quantity of materials includes the assumption that cleantech won't find substantial efficiencies in its material usage. Thankfully, that's a very bad assumption! Cleantech is just getting started. It's at the stage where we're still uncovering massive improvements to production (unlike fossil fuel technology, whose available efficiencies have been discovered and exploited, so that progress is glacial and negligible).
Take copper: electrification requires a lot of copper. But the amount of copper needed for each part of the cleantech revolution is declining faster than the demand for cleantech is rising. Just one example: between the first and second iteration of the Rivian electric vehicle, designers figured out how to remove 1.6 miles of copper wire from each vehicle:
https://insideevs.com/news/722265/rivian-r1s-r1t-wiring/
That's just one iteration and one technology! And yeah, EVs are only peripheral to a cleantech transition; for one thing, geometry hates cars. We're going to have to build a lot of mass transit, and we're going to be realizing these efficiencies with every generation of train, bus, and tram:
https://pluralistic.net/2024/02/29/geometry-hates-uber/#toronto-the-gullible
We have just lived through a massive surge in electrification, with unimaginable quantities of new renewables coming online and a stunning replacement of conventional vehicles with EVs, and throughout that surge, demand for copper remained flat:
https://www.chemanalyst.com/NewsAndDeals/NewsDetails/copper-wire-price-remains-stable-amidst-surplus-supply-and-expanding-mining-25416#:~:text=Global%20Copper%20wire%20Price%20Remains%20Stable%20Amidst%20Surplus%20Supply%20and%20Expanding%20Mining%20Activities
This isn't to say that cleantech is a solved problem. There are many political aspects to cleantech that remain pernicious, like the fact that so many of the cleantech offerings on the market are built around extractive financial arrangements (like lease-back rooftop solar) and "smart" appliances (like heat pumps and induction tops) that require enshittification-ready apps:
https://pluralistic.net/2024/06/26/unplanned-obsolescence/#better-micetraps
There's a quiet struggle going on between cleantech efficiencies and the finance sector's predation, from lease-back to apps to the carbon-credit scam, but many of those conflicts are cashing out in favor of a sustainable future and it doesn't help our cause to ignore those: we should be cheering them on!
https://pluralistic.net/2024/06/12/s-curve/#anything-that-cant-go-on-forever-eventually-stops
Take "innovation." Silicon Valley's string of pump-and-dump nonsense – cryptocurrency, NFTs, metaverse, web3, and now AI – have made "innovation" into a dirty word. As the AI bubble bursts, the very idea of innovation is turning into a punchline:
https://www.wheresyoured.at/burst-damage/
But cleantech is excitingly, wonderfully innovative. The contrast between the fake innovation of Silicon Valley and the real – and vital – innovation of cleantech couldn't be starker, or more inspiring:
https://pluralistic.net/2024/05/30/posiwid/#social-cost-of-carbon
Like the "battery problem." Whenever the renewables future is raised, there's always a doomer insisting that batteries are an unsolved – and unsolvable – problem, and without massive batteries, there's no sense in trying, because the public won't accept brownouts when the sun goes down and the wind stops blowing.
Sometimes, these people are shilling boondoggles like nuclear power (reminder: this is Hiroshima Day):
https://theconversation.com/dutton-wants-australia-to-join-the-nuclear-renaissance-but-this-dream-has-failed-before-209584
Other times, they're just trying to foreclose on the conversation about a renewables transition altogether. But sometimes, these doubts are raised by comrades who really do want a transition and have serious questions about power storage.
If you're one of those people, I have some very good news: battery tech is taking off. Some of that takes the form of wild and cool new approaches. In Finland, a Scottish company is converting a disused copper mine into a gravity battery. During the day, excess renewables hoist a platform piled with tons of rock up a 530m shaft. At night, the platform lowers slowly, driving a turbine and releasing its potential energy. This is incredibly efficient, has a tiny (and sustainable) bill of materials, and it's highly replicable. The world has sufficient abandoned mine-shafts to store 70TWh of power – that's the daily energy budget for the entire planet. What's more, every mine shaft has a beefy connection to the power grid, because you can't run a mine without a lot of power:
https://www.euronews.com/green/2024/02/06/this-disused-mine-in-finland-is-being-turned-into-a-gravity-battery-to-store-renewable-ene
Gravity batteries are great for utility-scale storage, but we also need a lot of batteries for things that we can't keep plugged into the wall, like vehicles, personal electronics, etc. There's great news on that score, too! "The Battery Mineral Loop" is a new report from the Rocky Mountain Institute that describes the path to "circular battery self-sufficiency":
https://rmi.org/wp-content/uploads/dlm_uploads/2024/07/the_battery_mineral_loop_report_July.pdf
The big idea: rather than digging up new minerals to make batteries, we can recycle minerals from dead batteries to make new ones. Remember, energy can be traded for materials: we can expend more energy on designs that are optimized to decompose back into their component materials, or we can expend more energy extracting materials from designs that aren't optimized for recycling.
Both things are already happening. From the executive summary:
The chemistry of batteries is rapidly improving: over the past decade, we've reduced per-using demand for lithium, nickle and cobalt by 60-140%, and most lithium batteries are being recycled, not landfilled.
Within a decade, we'll hit peak mineral demand for batteries. By the mid-2030s, the amount of new "virgin minerals" needed to meet our battery demand will stop growing and start declining.
By 2050, we could attain net zero mineral demand for batteries: that is, we could meet all our energy storage needs without digging up any more minerals.
We are on a path to a "one-off" extraction effort. We can already build batteries that work for 10-15 years and whose materials can be recycled with 90-94% efficiency.
The total quantity of minerals we need to extract to permanently satisfy the world's energy storage needs is about 125m tons.
This last point is the one that caught my eye. Extracting 125m tons of anything is a tall order, and depending on how it's done, it could wreak a terrible toll on people and the places they live.
But one question I learned to ask from Tim Harford and BBC More Or Less is "is that a big number?" 125m tons sure feels like a large number, but it is one seventeenth of the amount of fossil fuels we dig up every year just for road transport. In other words, we're talking about spending the next thirty years carefully, sustainably, humanely extracting about 5.8% of the materials we currently pump and dig every year for our cars. Do that, and we satisfy our battery needs more-or-less forever.
This is a big engineering project. We've done those before. Crisscrossing the world with roads, supplying billions of fossil-fuel vehicles, building the infrastructure for refueling them, pumping billions of gallons of oil – all of that was done in living memory. As Robin Sloan wrote:
Did people say, at the dawn of the automobile: are you kidding me? This technology will require a ubiquitous network of refueling stations, one or two at every major intersection … even if there WAS that much gas in the world, how would you move it around at that scale? If everybody buys a car, you’ll need to build highways, HUGE ones — you’ll need to dig up cities! Madness!
https://www.robinsloan.com/newsletters/room-for-everybody/
That big project cost trillions and required bending the productive capacity of many nations to its completion. It produced a ghastly geopolitics that elevated petrostates – a hole in the ground, surrounded by guns – to kingmakers whose autocrats can knock the world on its ass at will.
By contrast, this giant engineering project is relatively modest, and it will upend that global order, yielding energy sovereignty (and its handmaiden, national resliency) to every country on Earth. Doing it well will be hard, and require that we rethink our relationship to energy and materials, but that's a bonus, not a cost. Changing how we use materials and energy will make all our lives better, it will improve the lives of the living things we share the planet with, and it will strip the monsters who currently control our energy supply of their political, economic, and electric power.
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If you'd like an essay-formatted version of this post to read or share, here's a link to it on pluralistic.net, my surveillance-free, ad-free, tracker-free blog:
https://pluralistic.net/2024/08/06/with-great-power/#comes-great-responsibility
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bbyboybucket · 8 months ago
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Do you guys think that Bucky and Steve have to take vitamin and mineral supplements? Bc most the general population is deficient of several vitamins in general and can’t get enough from food sources, but a super soldier with a much higher metabolism would need even higher than the amount for a normal person. So without supplements, they’d be pretty deficient right?
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natureselements · 11 months ago
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Silver update coming soon ✨
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earthandsunandmoon · 1 year ago
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I was tagged by @andypartridges to list 5 songs I've been listening to lately!! Tysm <3
Grace, Too - the Tragically Hip
Midnight Sun - Redgum
The Fog - Kate Bush
As Close as This - the Mutton Birds
Blinder by the Hour - the Triffids
I tag @anynameisbetterthanmyfirstone , @preziosestelle , and @airnewzealand if you'd like :)
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hollow-knight-fights · 2 years ago
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Round Four
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essektheylyss · 2 years ago
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I will admit, my cosmological knowledge is honestly muddy at best, because I read every planar manual in existence in rapid succession roughly four years ago, have made up a lot of cosmological bits and bobs as needed for fic purposes, and also recently got an intensive crash course on a totally different conceptualization of the Feywild for my own D&D game, before we even touch on other non-D&D-based fictional worlds including my own that I know to varying extents and also the absolute bare minimum knowledge of parallel universe theories in real world physics and some decent exposure to philosophical theories of time, so like... as you might imagine, it is the absolute weirdest of soups in that part of my brain.
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twiichii · 3 months ago
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Home in Hilo, Hawaii
I had the honor of receiving a scholarship through Geological Society of America to study Hawaii Volcano Eruptions for half a week, thank you to all who support this blog 😀My venmo is here: https://account.venmo.com/u/twiichiiMy REI wishlist is here: https://www.rei.com/lists/418184695 Nearly a decade ago, I lived in Hawaii and completed my senior year of undergraduate education with a BA in…
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spacenutspod · 9 months ago
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SpaceTime Series 27 Episode 45 *Perseverance collects its 24th sample on Mars NASA’s Mars Perseverance Rover has just collected its 24 geological sample from the surface of the red planet.  The drill core offers new clues about Jezero Crater and the lake it may have once held. *New date set for Starliner's first manned mission NASA has set May 6 as the opening of the launch window for the first manned flight of Boeing’s long troubled CST-100 Starliner.  The flight to the International Space Station was originally slated for this month. *Space junk slams into a Florida home NASA says it’s analyzing an object that crashed into a Florida man's home last week which is suspected of being piece of debris jettisoned from the International Space Station. *The Science Report New research shows that the warming climate will turn Australia’s soil into a net emitter of carbon dioxide. A new study claims women with a low resting heart rate had a slightly higher chance of a criminal lifestyle. Identifying criminals by airborne forensic DNA evidence. Skeptics guide to African witchcraft trials   https://spacetimewithstuartgary.com  https://bitesz.com   This week’s guests include our regular guests: Alex Zaharov-Reutt from techadvice.life Tim Mendham from Australian Skeptics This episode is brought to you by NordPass....the password manager we use ad quite frankly couldn 't get by online without. You should really check it out. And we havea  great deal for you at the moment...plus a free trial...for all the details visit www.bitesz.com/nordpass
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nfornaomi · 10 months ago
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Bluebird day hiking up Ha Ling Peak and Miner's Peak yesterday! Trail was packed down and thanks to crampons I thought the hike was actually easier than summer hiking as there was plenty of grip. I remember Ha Ling was steep, but had forgotten just how steep in the last section 😅 - legs are definitely feeling fatigued today.
The last picture was taken from Miner's Peak - you can see Ha Ling Peak on the right of the photo. It's the one with the straight slope up 😊.
My watch recorded 10.3km, 969m elevation gain, and just under 3 hours of moving time.
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jamesgraybooksellerworld · 11 months ago
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....twenty-two full-paged engravings of fossils, caves, physical anomalies, artifacts monstrous births, aberrant weather and other difficult to explain occurrences; a double-paged map with contemporary coloring; two pages of the arms of the subscribers; and a portrait of the author after Faithorne. 
 The natural history of Lancashire, Cheshire, and the peak, in Derbyshire: with an account of the British, Phœnician, Armenian, Gr. and Rom. antiquities in those parts. By Charles Leigh, Doctor of Physick. 558J. Leigh, Charles. (1662-1701?)  The natural history of Lancashire, Cheshire, and the peak, in Derbyshire: with an account of the British, Phœnician, Armenian, Gr. and Rom. antiquities in…
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bogleech · 1 month ago
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In your general appreciation of nature, I am curious about your take on this - do you believe nature has reached "peak complexity"?
There was a time without flying animals. There was a time without land animals. There was a time without vertebrates, without segmented exoskeletons, without fur, without feathers, without complex social structures, without eyes. There was a time without plants, or any kind of photosythesis. There was a time without multicellular life.
But at this point, do you feel nature on planet Earth has evolved all "milestones" there are (and from now on, all additional complexity will have come from civilization, one way or another)?
I mean in terms of potential, assuming for a moment "nature" of some kind still exist during the next billion years or so.
Yes or No would be enough (lol), but of course spec evo ideas would be even cooler!
Nah I think there's absolutely infinite things nature could evolve some day that we can't even imagine. You really never know. Like it's 100% biochemically possible for something to "breathe fire;" there just has to be a sequence of mutations and the right competition to gradually make it happen, possibly starting with something that sprays boiling hot compounds like a bombardier beetle. I could also imagine a whole class of animals evolving like the modular people from All Tomorrows, because we already have Siphonophores. It's just a matter of something evolving to be a colony that can also come apart and keep functioning. I'm also obviously obsessed with the concept of a creature that weaponizes its own little symbiotic bugs, since I've used that a million times. Like maybe millions of years from now, a descendant of sloths will have upgraded from being full of moths to being full of tiny wasps? And then what if that's so effective they actually start diversifying like crazy and there's a whole era dominated by mammaloid wasp nest beasts ranging from grazers merely cleaned and guarded by their insects to predators who hunt with their assistance. Plant/animal physical symbiosis is also another thing that's not really taken off outside a few insects. Why shouldn't a plant some day decide it likes growing on some kind of animal's body? It's not a plant, but lichens grow on a species of weevil. It's so rare there aren't even photos, but I swear I saw video of one on BBC when I was a kid:
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What if a moss adapts just to the shell of some big reptile and eventually the reptile starts to derive sustenance from it too?? Over time what if this evolves into basically real life Bulbasaurs, where the animal part can be sustained off sunlight? It'd just have to slow its animal metablism way, waaay down to meet the plant halfway. Maybe it hibernates for years and years at a time or spends decades developing like a cicada and then it emerges in pure mating mode, using up all the food it conserved as its flower finally blooms. I know most of my examples are now elaborations on something that's kind of almost already begun happening somewhere but you get the idea. Furthermore you never know if all life as we know it will die out one day while there's still a couple billion years left of the planet's physical existence. Then a whole new line of life could evolve that we can't conceive of at all, from the ground up. Like crystalline mineral trees that start talking to each other with laser light. Or maybe only bacteria are left but for some reason bacteria develop what they need to start sticking together and building a new kind of multicellular organism. What the heck would an equivalent to "animals" look like if the ancestor was a bacterium????? Holy fuck I'm mad I won't see it. Fuming and seething actually. This is the worst thing ever. Why am I doomed to die on regular animal planet with google bots and disney remakes. I wanna see salmonella animal planet. It's not fair.
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opencommunion · 6 months ago
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"The Congo’s strategic location in the middle of Africa and its fabulous natural endowment of minerals and other resources have since 1884 ensured that it would serve as a theatre for the playing out of the economic and strategic interests of outsiders: the colonial powers during the scramble for Africa; the superpowers during the Cold War; and neighbouring African states in the post-Cold War era. To prevent a direct confrontation between the United States and the Soviet Union, the Security Council deployed from 1960 to 1964 what was then the largest and most ambitious operation ever undertaken by the UN, with nearly 20,000 troops at its peak strength plus a large contingent of civilian personnel for nation-building tasks.
This latter aspect of the Opération des Nations unies au Congo (ONUC) was a function of the fragile political revolution ... The Congo won its independence from Belgium on 30 June 1960. Patrice Lumumba’s MNC-L and its coalition of radical nationalist parties had captured a majority of seats in the lower house of parliament in the pre-independence elections in May. Lumumba became prime minister and head of government, while the Abako leader Joseph Kasa-Vubu became the ceremonial head of state. The victory of a militantly nationalist leader with a strong national constituency was viewed as a major impediment to the Belgian neocolonialist strategy and a threat to the global interests of the Western alliance.
Within two weeks of the proclamation of independence, Prime Minister Lumumba was faced with both a nationwide mutiny by the army and a secessionist movement in the province of Katanga bankrolled by Western mining interests. Both revolts were instigated by the Belgians, who also intervened militarily on 10 July, a day before the Katanga secession was announced. In the hopes of obtaining the evacuation of Belgian troops and white mercenaries, and thus ending the Katanga secession, Lumumba made a successful appeal to the UN Security Council to send a UN peacekeeping force to the Congo. However, the UN secretary-general, Dag Hammarskjöld, interpreted the UN mandate in accordance with Western neocolonialist interests and the US Cold War imperative of preventing Soviet expansion in the Third World. This led to a bitter dispute between Lumumba and Hammarskjöld, which resulted in the US- and Belgian-led initiative to assassinate the first and democratically elected prime minister of the Congo.
... Brussels’ failure to prevent a radical nationalist such as Lumumba from becoming prime minister created a crisis for the imperialist countries, which were determined to have a decolonization favourable to their economic and strategic interests with the help of more conservative African leaders. With Belgium’s failure to transfer power in an orderly fashion to a well-groomed moderate leadership group that could be expected to advance Western interests in Central and Southern Africa, the crisis of decolonization in the Congo required US and UN interventions. Working hand in hand, Washington, New York and Brussels succeeded in eliminating Lumumba and his radical followers from the political scene."
Georges Nzongola-Ntalaja, The Congo from Leopold to Kabila: A People's History, 2002
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geologyin-blog · 2 months ago
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Amazing Grossular Garnet w/ Hedenbergite from Vesper Peak, Washington, USA.
Photo 📷 Mineral Masterpiece
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hollow-knight-fights · 2 years ago
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Round 3
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waokevale · 3 days ago
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Some Dwarf headcanons, since they're extremely underrated and deserve more love. (And lore)
I imagine them to be humanoid, but at the same time, very creature-like. Don't get me wrong, I love the idea of them just being like Marvin from Looney tunes and straight up having a pitch black face, but I wanted to play with something different. :>
They have thin fur but it does very little to protect them from the cold.
They have night vision and are nocturnal.
They can see very well in warm light, but struggle seeing shades of green.
They regularly visit floor 100 to keep up their ancestors' tradition of Lava eel fishing.
Speaking of lava eels, I'd like to imagine they eat them whole, like that one quote from the Canon-Friendly Dialogue Expansion mod.
They can survive in insanely hot temperatures and are relatively unharmed by lava, but they struggle a lot during Winter.
They are ectothermic or 'cold-blooded', their internal body temperature is similar to that of a reptile, hence why they're especially uncomfortable with cold temperatures.
Winter is actually when their kleptomania is at its highest peak. Due to the scarceness of supplies and foregables and their need to eat a lot more to keep up their body warmth.
They sleep very little and can't hibernate, so instead they have to rely on eating a lot more food than usual, since they burn energy insanely quickly.
Unlike shadow people, they become independent from their guardian a lot quicker. They mature quicker too, but they live significantly shorter. (Still about 20 times longer than a human though.)
They used to keep many stonefish pets throughout centuries, but gave up on raising them after the 53rd one died. (Yeah those don't exactly live very long...)
They were created in a laboratory, which soon thereafter came to ruin. – They don't remember anything of this time and don't know the whole story of their origins.
They're one of the youngest living members of their species.
They of course consume minerals on regular basis; those are very rich in elements which Smoluanu require to survive.
To be able to easily break open said minerals, their teeth are extremely sharp. Almost as hard as diamonds, although they don't use them very often and would rather grind them up with tools.
Their bone structure is at least 5 times harder than that of a human, except for their skull, which is their only true weak point. Hence why they only need to wear protection for their heads.
They have rat-like paw-pads on both their hands and feet to protect them from rough terrain, though they chose to wear clothes over them.
Part of the reason why Smoluanu wear clothes and helmets is to disguise themselves from their enemy. No shadow fiend has ever seen a Smoluanu without their disguise, or so they say...
If it were to come to that a Smoluanu has been spotted without their helm by a void spirit, they would immediately have to kill them. If it was a group of brutes however and they were cornered, they'd be forced to blow both themself and their enemies up.
Dwarf has been collecting the helms of their fallen brothers and sires and keeping them on a shelf as mementos and as a sign of respect for them. They sometimes bring tokens, which remind them of the fallen person and place them inside their helm.
They hope that one day, they'll be able to recover the lost secrets of their ancestors' technology. That's why they appreciate when the Farmer gives them artifacts. It makes them feel closer to their ancestors' history and adds another puzzle piece to their theory about them.
For now though, they like to tinker and make small gadgets, usually nothing as ambitious as Maru, but they sure are trying. ¯⁠\⁠_⁠(⁠ツ⁠)⁠_⁠/⁠¯
That's all I have for now. 👍
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solar4seekstron · 23 days ago
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Tf1!Elita, D-16, B-127, Orion Pax, Sentinel Prime with Sparkling!Reader: A Sparkling?!
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Content: SFW, Just silly situations with the bots with a baby you.
TW/Tags: Wholesomeness, B is a silly bean (He was my favorite part to write ngl), Elita is a mom/Auntie, Y’all know D and OP will be the best dads, Sentinel I doubt will do anything with a sparkling and his is defiently the funniest.
One day while Orion was just running from the cops in the city he passes an alleyway of some of the higher ups apartments.
When he was able to get to a good hiding spot, he took a moment to breath.
Until he hears and sees a dumpster moving around. He came up to it with caution as he slowly opens a dumpster. And when he peaks over it only to be confused.
“What?”
He didn’t expect to see a little sparkling. You.
You had bright yellow optics and blue paint. You were gently nibbling at you cervo as you looked up at him as he picked you up. He’d hold you with his cervos holding you like anyone would with a baby.
”What’s a sparkling doing in a dumpster. And a miner sparkling no less.” He looked in the dumpster for a note or anything. But you giggled and reached for him as he looked back at you. You had the biggest smile as your optics shine brightly as you continue to try to eat your cervo.
His optics soon tearing up. Holy Primus you are adorable!!!
And so he does tthe only most responsible thing a bot can do in his situation. He brought you home and said you were Ds and the mother died in the last accident at the other mining area or something. Nobody really questioned it.
D though was not too happy to pretend to be a sire.
”YOU DID WHAT?!” Orion has you facing him so your back is turned to D. Who didn’t give you much mind at the moment. “Come on D just give them a chance. They have yellow optics and they’re really good.”
”I could care less if some sparkling you found in the dumpster is cuuuuuu….” He couldn’t finish as Orion turned you around.
You reaching both cervos to his helm as your had your usual large grin as you got excited when seeing him. The miners around you in the quarters not paying much mind.
D just stared at you as you continue to giggle as move your arms around in Orions cervos.
He soon takes you from Orion and instantly starts baby talking to you as you kept giggling. At least that’s until Elita came to the three of you. “Orion Pax! D-16! You two better explain to me why you both have a…”
She looked at you as D still had you in his arms. Your cervos gripping his larger ones as you looked up at her. You four are silent for a moment. D and Orion looking at each other unsure as Elita just looks at you with wide optics. As you do a frog blink she was instantly smitten.
”Gimme them!” D was too scared to not let her. She took you into her arms and held you up in front of her. “You shall be my successor! Elita…um Two!!”
You’d just stare at her. Then you make a baby sound that sounds like an E making her optics grow bigger like as if she’s a proud parent. Which she probably is now. So she instantly started scolding the boys after as you tried to reach for D and Orion.
”And-……..Guess you two are dads now-“
If B-127 met you first-
B was working. Watching trash go to the fire slowly. All of a sudden he hears from the dumpster a sparkling go “weeeeeeeee”. You’d landed on top of some trash.
You giggled as you sat up and reached for B. He just watched you.
His frame still as his helm moved watching you. As you got closer to the fire.
“………..”
”………………”
”………………………………….”
”Ba”
“HOLY SPARK YOU’RE REAL!!!!!!” He was fast to pick you up as you giggled and reach for him. Luckily they gave him energon. It just means he’ll eat less then half of what he usually does.
But it was all worth it in order to watch you grow.
If Sentinel found you-
You just sat there as Sentinel looked at you. Being held by a officer. You just stared at him with wide optics.
”……………..”
”………………”
”Eh..Eh Ew.” You said.
I hope you guys enjoyed this I know I did. I’m slowly getting more use to writing shorts. Although I will still get pretty carried away at times.
As always a repost is appreciated and I hope you guys enjoy my other works and see you all in the next one. Hope you all are having a good rest of your day!
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