These types of huge perfect specimens always take my breath away when I am able to see them in person. To think that this kind of stuff just kinda exists buried in the earth...
I am a part of a local mineral club which hosts several "field trips" a year to various mineralogically interesting locations (most of which aren't accessible as an individual, like private land and special digs at active mining/quarrying sites on their days off). I have never found anything even remotely as beautiful as the specimens shown, but the small collection of mildly interesting things that I've smashed out of the earth with my own 2 hands is amazingly satisfying to me. You don't even have to be a super dedicated "rock nerd" to take part, I highly recommend looking for local mineral clubs to join if this even remotely interests you. It's really a ton of fun!
That’s what really sucks about rockhounding as a hobby. In the US we have a blessing of public BLM lands where we can collect, especially in the West, but most of the interesting specimens in museums and fancy collections come from mines or some unique geological occurrence on private land. Getting them requires dropping lots of money or getting into commercial mining. The best most of us can really hope for is some small piece from tailings.
There are a few species you can sometimes find in washes when they get buried during massive floods, but other than that most museum quality specimens are impossible to find for rockhounds.
I still bring my trusty Estwing rock hammer everywhere but it kind of takes the wind out of the treasure hunting aspect.
> There are a few species you can sometimes find in washes when they get buried during massive floods, but other than that most museum quality specimens are impossible to find for rockhounds.
Well, that's kinda how it has to be, right? If art museums displayed the artwork anyone can paint, they wouldn't be interesting to most people. Most museums are about displaying the stuff you otherwise wouldn't be able to find, buy, or make. It's still fun to learn to paint, even if you're no Rembrandt.
To be fair, there are some museums that go for depth instead of scarcity and I personally find them more interesting. The Computer History Museum does this pretty well. They have some truly unique items, but also plenty of stuff you can buy on eBay, just presented and explained well.
I live in the northeast USA, there are very few public collecting spots around me. It makes me really sad listening to people who have been in the hobby for a long time talk about all the amazing collecting sites they used to frequent before they were paved over with parking lots or condominiums and whatnot. There isn't a whole lot of "wild open space" left around here to poke about in. Another big factor for keeping the public out of collecting sites that do still exist is that some people can't be bothered to be respectful in their collecting.
The Loudville lead mine in Easthampton MA, which used to be open for public collecting, recently closed due to irresponsible collecting and severe erosion. They closed off the entire recreational trail system, which has far reaching affects far beyond the rockhounding community.
I'd collected once at Loudville shortly before it closed and found a couple scraps of Pyromorphite, some tiny Wulfenite you need a microscope to see, and some Malachite. I am sad that I can't go back, now.
I don't expect, or really even want to find museum-quality specimens, I just want the ability to explore the minerology of my home region on a physical and personal level.
"The best most of us can really hope for is some small piece from tailings."
Just this past weekend I pulled a plate full of rare tellurides out of Otto Mountain for a Caltech PhD. You have to be very observant to find a good spot to acquire minerals out of the ground, but excellent large specimens are still out there to be pulled.
Finding specimens is not that hard or inaccessible if you are determined. Virtually any place on earth has its own geomorphology history. Start by looking at geological maps to learn what kind of rocks/minerals you can find in your surroundings and look for old/active mines, quarries or any activity that excavates soil, etc. Specimens can be found sometimes in land deposits from these activites.
these dramatic and colorful massive specimens are perfect for an art museum, but as a recovering mineralogist I feel like the true beauty of the world of minerals in Earth is shown on the microscopic level, where you can see both the incredible order and incredible randomness of the (mostly) crystalline solids that make up minerals. See https://en.wikipedia.org/wiki/Thin_section
There is an idea that minerals are these inorganic substances but fully two thirds of all minerals identified were originated from direct or indirect interaction with living things on Earth. In fact a recent hypothesis holds that minerals have evolved since the formation of the solar system very much like living things, getting more and more complex via selective processes. See https://hazen.carnegiescience.edu/research/mineral-evolution
I've been to a few mineral museums like this and one of the interesting ones you can come across is Asbestos. Just hanging out there on display right next to some other mineral. It forms beautiful formations just like the rest, but I've heard so many mesothelioma lawyer commercials that it's easy to forget it's a completely natural material. Also one you can pick apart like cotton and weave into a fabric - it's a flexible material, made out of a rock, which can kill you.
The asbestos formations are ones they keep behind glass.
We used to have asbestos rocks sitting around in our house when I was growing up (my mother was born a raised in the town formerly called Asbestos, QC). You could just peel the fibers off the rock. In that form the asbestos is harmless: it's only when it's chopped into shorter fibers and inhaled that it's seriously unhealthy. Industrial uses almost always chopped the fibers so almost no commercial products using asbestos are safe, but the rocks just sitting there are harmless.
Central California has several abandoned asbestos mines which continue to release asbestos into the nearby air and water. I remember considering some hiking around the area once and then came across the warnings regarding exposure.
CA also has a lot of naturally occuring mercury as well. I seem to remember that some lakes in CA are so high in natural(i.e. not from gold mining) mercury that you shouldn't eat the fish.
The Monte Cristo basin in Washington is high enough in Arsenic that you shouldn't drink water there. There are warning signs at trailheads EG the trailhead leading into Gothic Basin and Gothic Peak.
Kind of fun to think that the crystalline structure of minerals is an "echo" of their arrangement of atoms. A repeating pattern on a scale we can actually observe.
For us nerds in the Portland/PNW area, the Rice Museum out in Hillsboro—despite a name suggesting it has an exhaustive display of rice varieties—has a terrific collection of large and unique mineral specimens.
https://www.ricenorthwestmuseum.org
Second the Rice Museum recommendation! If I ever make it big I'm going to legally change my last name to 'Mineral' and create the Mineral Museum of Rice on the other side of the freeway showcasing everything from basmati to risotto.
True, but among the minerals with cubic crystal structure it is not unusual for them to be found as crystals that are perfect regular or semiregular polyhedra, with a shape characteristic for the mineral, for instance octahedron (e.g. spinel, diamond), rhombic dodecahedron (e.g. garnet) or cube (e.g. pyrite).
I suppose that the crystals from the picture are of pyrite, which frequently looks like this.
In the antiquity, when what are now called diamonds (the Romans and the Greeks called them "Indian adamants", because they were first encountered by Europeans during the expedition in India of Alexander the Great; "adamant" meant something else in Europe) were very difficult to cut and polish, they were normally used as gems in their natural shape of regular octahedra.
Cutting diamonds from their natural octahedral shape into polyhedra with more facets, e.g. brilliant, was invented much later.
Regarding etymology, for many centuries the substances that are now called "sulfides" were called "pyrites", after the "iron pyrite" i.e. the iron (II) disulfide, which is the most abundant sulfide mineral.
At the end of the 18th century, Lavoisier together with a few other French chemists have created the modern systematic chemical nomenclature, so the old term "pyrite" was replaced by "sulfide" (like also "vitriol" was replaced with "sulfate").
For who does not know, "pyrite" comes from "fire", i.e. from the pronunciation in Ancient Greek of the corresponding word that was cognate with English "fire" (Ancient Greek or Latin "p" corresponds with English "f").
Striking pyrite produces sparks, which can be used to start a fire.
> Ancient Greek or Latin "p" corresponds with English "f"
Similarly, ancient Greek "p" corresponds with modern Greek "f", and ancient Greek "b" corresponds with modern Greek "v".
We may have done it first, but the sound change is pretty common. "B" -> "v" is arguably in process in Spanish. Something similar had already happened in Latin; compare Latin "frater" to English "brother" or Latin "fero" to Greek "phero".
Especially since it's an exception that breaks the rule that straight lines are not found in nature. Not only is it a straight line, but a cube. They just look unnatural. Very cool stuff
oh my god, this is gorg. i love museums for the same exact thing. there's so much you donno and every visit just leaves me in awe. thank you for sharing it. big wide bful world
First thought in my head was that these would make great demos for 3DGS: both geometry and light interactions are non-trivial. I imagine that makes them difficult to capture with traditional photogrammetry
If "dead" things look this much alive, imagine how hard it is to determine life on other planets. Real life could look much more dull than these things :-)
For a while I thought what could there be to see in the petrified national forest. It's mineralized trees (https://en.wikipedia.org/wiki/Petrified_wood), and there were enough different minerals in the area to make different colors. Definitely worth a visit.
I can get behind a God that just makes cool rocks.
Gabriel: "Hey, God, what's doing?"
God: "Oh, well, I just got a big lump of boron so I'm trying to get it to crystallise out with all this silicon and alumina. If it works I think I'll have the tiny people call it 'tourmaline'. Yeah, look at that stuff, look at it go!"
The shamans would test your ability of spirit by qualifying if you "Know the Stone People". They are the oldest beings, the keepers of deep wisdom and knowledge.
That’s fine, but you don’t have to be a deist to appreciate the title. Moby named one of his songs “God Moving Over the Face of the Water.” The author chose to use a metaphor many of us are familiar with, and even some atheists connote “God” to the mysterious existence of the universe, symbolic to the many collisions of stars that led us here.
So many people carry this dull heavy just in their pockets to fend off all attempts to revive the sense of wonder they buried deep in their childhood.
For me, just the very fact that there exist time, space, laws of physics, enormous complexity stemming from deceptive "simplicity", is absolutely awe-inspiring.
I am a part of a local mineral club which hosts several "field trips" a year to various mineralogically interesting locations (most of which aren't accessible as an individual, like private land and special digs at active mining/quarrying sites on their days off). I have never found anything even remotely as beautiful as the specimens shown, but the small collection of mildly interesting things that I've smashed out of the earth with my own 2 hands is amazingly satisfying to me. You don't even have to be a super dedicated "rock nerd" to take part, I highly recommend looking for local mineral clubs to join if this even remotely interests you. It's really a ton of fun!
There are a few species you can sometimes find in washes when they get buried during massive floods, but other than that most museum quality specimens are impossible to find for rockhounds.
I still bring my trusty Estwing rock hammer everywhere but it kind of takes the wind out of the treasure hunting aspect.
Well, that's kinda how it has to be, right? If art museums displayed the artwork anyone can paint, they wouldn't be interesting to most people. Most museums are about displaying the stuff you otherwise wouldn't be able to find, buy, or make. It's still fun to learn to paint, even if you're no Rembrandt.
To be fair, there are some museums that go for depth instead of scarcity and I personally find them more interesting. The Computer History Museum does this pretty well. They have some truly unique items, but also plenty of stuff you can buy on eBay, just presented and explained well.
The Loudville lead mine in Easthampton MA, which used to be open for public collecting, recently closed due to irresponsible collecting and severe erosion. They closed off the entire recreational trail system, which has far reaching affects far beyond the rockhounding community.
I'd collected once at Loudville shortly before it closed and found a couple scraps of Pyromorphite, some tiny Wulfenite you need a microscope to see, and some Malachite. I am sad that I can't go back, now.
You can read more about it here: https://newenglandforestry.org/newsroom/recreation-on-the-ro...
I don't expect, or really even want to find museum-quality specimens, I just want the ability to explore the minerology of my home region on a physical and personal level.
Just this past weekend I pulled a plate full of rare tellurides out of Otto Mountain for a Caltech PhD. You have to be very observant to find a good spot to acquire minerals out of the ground, but excellent large specimens are still out there to be pulled.
There is an idea that minerals are these inorganic substances but fully two thirds of all minerals identified were originated from direct or indirect interaction with living things on Earth. In fact a recent hypothesis holds that minerals have evolved since the formation of the solar system very much like living things, getting more and more complex via selective processes. See https://hazen.carnegiescience.edu/research/mineral-evolution
The asbestos formations are ones they keep behind glass.
CA also has a lot of naturally occuring mercury as well. I seem to remember that some lakes in CA are so high in natural(i.e. not from gold mining) mercury that you shouldn't eat the fish.
Mines Museum of Earth Science (Golden CO) and The Harvard Museum of Natural History (Mineralogy room, Cambridge MA)
https://crystalverse.com/best-way-to-grow-copper-sulfate-cry...
Crystal growth has been on here before. Let me see if I can find a link or two...
https://news.ycombinator.com/item?id=31105320
https://news.ycombinator.com/item?id=30487511
https://news.ycombinator.com/item?id=29779923
https://news.ycombinator.com/item?id=29255511
I suppose that the crystals from the picture are of pyrite, which frequently looks like this.
In the antiquity, when what are now called diamonds (the Romans and the Greeks called them "Indian adamants", because they were first encountered by Europeans during the expedition in India of Alexander the Great; "adamant" meant something else in Europe) were very difficult to cut and polish, they were normally used as gems in their natural shape of regular octahedra.
Cutting diamonds from their natural octahedral shape into polyhedra with more facets, e.g. brilliant, was invented much later.
At the end of the 18th century, Lavoisier together with a few other French chemists have created the modern systematic chemical nomenclature, so the old term "pyrite" was replaced by "sulfide" (like also "vitriol" was replaced with "sulfate").
For who does not know, "pyrite" comes from "fire", i.e. from the pronunciation in Ancient Greek of the corresponding word that was cognate with English "fire" (Ancient Greek or Latin "p" corresponds with English "f").
Striking pyrite produces sparks, which can be used to start a fire.
Similarly, ancient Greek "p" corresponds with modern Greek "f", and ancient Greek "b" corresponds with modern Greek "v".
We may have done it first, but the sound change is pretty common. "B" -> "v" is arguably in process in Spanish. Something similar had already happened in Latin; compare Latin "frater" to English "brother" or Latin "fero" to Greek "phero".
They’re not expensive
https://www.science.org/content/article/how-do-wombats-poop-...
Where the gems are in plain sight!
https://www.hmns.org/exhibits/cullen-hall-of-gems-and-minera...
(Post Malone’s response in a Joe Rogan interview when asked about McKenna’s Stoned Ape Theory)
"They are not rocks, they are minerals marie"
https://tellusmuseum.org/exhibit/weinman-mineral-gallery/
I don't see any god though, but I think I saw godzilla hiding in one of those shapes.
"The first gulp from the glass of natural sciences will turn you into an atheist, but at the bottom of the glass God is waiting for you."
Gabriel: "Hey, God, what's doing?"
God: "Oh, well, I just got a big lump of boron so I'm trying to get it to crystallise out with all this silicon and alumina. If it works I think I'll have the tiny people call it 'tourmaline'. Yeah, look at that stuff, look at it go!"
For me, just the very fact that there exist time, space, laws of physics, enormous complexity stemming from deceptive "simplicity", is absolutely awe-inspiring.