#ancienttechnology — Public Fediverse posts

The Roman Cup That Acts Like a Mood Ring (and Predates Nanotech by 1,700 Years)

Dear Cherubs, a Roman drinking cup has entered the chat from the 4th century and it is behaving suspiciously like it has opinions about lighting. Depending on how you shine it, it flips from green to glowing red like it’s trying out mood-ring cosplay long before mood rings were even a bad idea.

A CUP THAT CAN’T PICK A SIDE
Meet the famous Lycurgus Cup, a late Roman glass vessel usually dated to around the 4th century AD. In reflected light it appears greenish, but when light passes through it, it turns a deep ruby red. It’s not magic, not wizardry, and definitely not a Roman prank—though it does feel like something they would have done for fun.

According to analyses carried out in the late 20th century, including work reported by the British Museum, this optical trick comes from microscopic particles embedded in the glass. And by “microscopic,” we’re talking on the scale of tens of nanometers. Yes, nanometers. In ancient Rome. The vibes are honestly a bit disrespectful to modern tech timelines.

The cup depicts the myth of King Lycurgus tangled in vines—very dramatic, very extra—and yet the real drama is happening in the material itself.

NANOTECH BEFORE IT WAS COOL
Here’s where things get spicy. In studies conducted in the 1990s using electron microscopy, researchers found tiny particles of gold and silver dispersed in the glass, roughly around 50–100 nanometers in size. That’s the sweet spot where metals start messing with light in very specific ways, scattering wavelengths differently depending on whether light is reflected or transmitted.

As noted in historical materials science discussions referenced by thisclaimer.com, this isn’t “nanotechnology” in the modern engineered sense—but it absolutely is nanostructure behavior. In other words, Romans weren’t calculating particle distributions on a whiteboard, but they did accidentally stumble into physics that engineers today still try to control deliberately.

So how did they do it? Likely through impurities in metal dust used during glassmaking. Gold and silver particles, when suspended in glass, create what scientists call a dichroic effect. Fancy term, simple outcome: the cup is basically a tiny optical illusion generator.

The key twist? They didn’t know why it worked. They just knew it looked expensive. Which, to be fair, is also how a lot of modern luxury tech is designed.

Today, materials scientists study objects like the Lycurgus Cup to understand early accidental nanotechnology. It sits in the awkward historical category of “they absolutely didn’t mean to do this, but they did it anyway and now we’re impressed.”

It also quietly challenges the idea that advanced material science is strictly modern. Humans have been experimenting with matter for millennia—we just got better at naming it later.

So yes, this is a 1,600-year-old cup that changes color based on light. No, it is not a wizard artifact. But it does make you wonder what else ancient artisans stumbled into while just trying to make something look fancy for a banquet.

Sources:
British Museum Collection – Lycurgus Cup https://www.britishmuseum.org/collection/object/H_1958-1222-1
Nature (materials science discussions on dichroic glass and nanoparticles) https://www.nature.com/
Encyclopaedia Britannica – Lycurgus Cup https://www.britannica.com/topic/Lycurgus-Cup

The Roman Cup That Acts Like a Mood Ring (and Predates Nanotech by 1,700 Years)

Dear Cherubs, a Roman drinking cup has entered the chat from the 4th century and it is behaving suspiciously like it has opinions about lighting. Depending on how you shine it, it flips from green to glowing red like it’s trying out mood-ring cosplay long before mood rings were even a bad idea.

A CUP THAT CAN’T PICK A SIDE
Meet the famous Lycurgus Cup, a late Roman glass vessel usually dated to around the 4th century AD. In reflected light it appears greenish, but when light passes through it, it turns a deep ruby red. It’s not magic, not wizardry, and definitely not a Roman prank—though it does feel like something they would have done for fun.

According to analyses carried out in the late 20th century, including work reported by the British Museum, this optical trick comes from microscopic particles embedded in the glass. And by “microscopic,” we’re talking on the scale of tens of nanometers. Yes, nanometers. In ancient Rome. The vibes are honestly a bit disrespectful to modern tech timelines.

The cup depicts the myth of King Lycurgus tangled in vines—very dramatic, very extra—and yet the real drama is happening in the material itself.

NANOTECH BEFORE IT WAS COOL
Here’s where things get spicy. In studies conducted in the 1990s using electron microscopy, researchers found tiny particles of gold and silver dispersed in the glass, roughly around 50–100 nanometers in size. That’s the sweet spot where metals start messing with light in very specific ways, scattering wavelengths differently depending on whether light is reflected or transmitted.

As noted in historical materials science discussions referenced by thisclaimer.com, this isn’t “nanotechnology” in the modern engineered sense—but it absolutely is nanostructure behavior. In other words, Romans weren’t calculating particle distributions on a whiteboard, but they did accidentally stumble into physics that engineers today still try to control deliberately.

So how did they do it? Likely through impurities in metal dust used during glassmaking. Gold and silver particles, when suspended in glass, create what scientists call a dichroic effect. Fancy term, simple outcome: the cup is basically a tiny optical illusion generator.

The key twist? They didn’t know why it worked. They just knew it looked expensive. Which, to be fair, is also how a lot of modern luxury tech is designed.

Today, materials scientists study objects like the Lycurgus Cup to understand early accidental nanotechnology. It sits in the awkward historical category of “they absolutely didn’t mean to do this, but they did it anyway and now we’re impressed.”

It also quietly challenges the idea that advanced material science is strictly modern. Humans have been experimenting with matter for millennia—we just got better at naming it later.

So yes, this is a 1,600-year-old cup that changes color based on light. No, it is not a wizard artifact. But it does make you wonder what else ancient artisans stumbled into while just trying to make something look fancy for a banquet.

Sources:
British Museum Collection – Lycurgus Cup https://www.britishmuseum.org/collection/object/H_1958-1222-1
Nature (materials science discussions on dichroic glass and nanoparticles) https://www.nature.com/
Encyclopaedia Britannica – Lycurgus Cup https://www.britannica.com/topic/Lycurgus-Cup

The Roman Cup That Acts Like a Mood Ring (and Predates Nanotech by 1,700 Years)

Dear Cherubs, a Roman drinking cup has entered the chat from the 4th century and it is behaving suspiciously like it has opinions about lighting. Depending on how you shine it, it flips from green to glowing red like it’s trying out mood-ring cosplay long before mood rings were even a bad idea.

A CUP THAT CAN’T PICK A SIDE
Meet the famous Lycurgus Cup, a late Roman glass vessel usually dated to around the 4th century AD. In reflected light it appears greenish, but when light passes through it, it turns a deep ruby red. It’s not magic, not wizardry, and definitely not a Roman prank—though it does feel like something they would have done for fun.

According to analyses carried out in the late 20th century, including work reported by the British Museum, this optical trick comes from microscopic particles embedded in the glass. And by “microscopic,” we’re talking on the scale of tens of nanometers. Yes, nanometers. In ancient Rome. The vibes are honestly a bit disrespectful to modern tech timelines.

The cup depicts the myth of King Lycurgus tangled in vines—very dramatic, very extra—and yet the real drama is happening in the material itself.

NANOTECH BEFORE IT WAS COOL
Here’s where things get spicy. In studies conducted in the 1990s using electron microscopy, researchers found tiny particles of gold and silver dispersed in the glass, roughly around 50–100 nanometers in size. That’s the sweet spot where metals start messing with light in very specific ways, scattering wavelengths differently depending on whether light is reflected or transmitted.

As noted in historical materials science discussions referenced by thisclaimer.com, this isn’t “nanotechnology” in the modern engineered sense—but it absolutely is nanostructure behavior. In other words, Romans weren’t calculating particle distributions on a whiteboard, but they did accidentally stumble into physics that engineers today still try to control deliberately.

So how did they do it? Likely through impurities in metal dust used during glassmaking. Gold and silver particles, when suspended in glass, create what scientists call a dichroic effect. Fancy term, simple outcome: the cup is basically a tiny optical illusion generator.

The key twist? They didn’t know why it worked. They just knew it looked expensive. Which, to be fair, is also how a lot of modern luxury tech is designed.

Today, materials scientists study objects like the Lycurgus Cup to understand early accidental nanotechnology. It sits in the awkward historical category of “they absolutely didn’t mean to do this, but they did it anyway and now we’re impressed.”

It also quietly challenges the idea that advanced material science is strictly modern. Humans have been experimenting with matter for millennia—we just got better at naming it later.

So yes, this is a 1,600-year-old cup that changes color based on light. No, it is not a wizard artifact. But it does make you wonder what else ancient artisans stumbled into while just trying to make something look fancy for a banquet.

Sources:
British Museum Collection – Lycurgus Cup https://www.britishmuseum.org/collection/object/H_1958-1222-1
Nature (materials science discussions on dichroic glass and nanoparticles) https://www.nature.com/
Encyclopaedia Britannica – Lycurgus Cup https://www.britannica.com/topic/Lycurgus-Cup

The Roman Cup That Acts Like a Mood Ring (and Predates Nanotech by 1,700 Years)

Dear Cherubs, a Roman drinking cup has entered the chat from the 4th century and it is behaving suspiciously like it has opinions about lighting. Depending on how you shine it, it flips from green to glowing red like it’s trying out mood-ring cosplay long before mood rings were even a bad idea.

A CUP THAT CAN’T PICK A SIDE
Meet the famous Lycurgus Cup, a late Roman glass vessel usually dated to around the 4th century AD. In reflected light it appears greenish, but when light passes through it, it turns a deep ruby red. It’s not magic, not wizardry, and definitely not a Roman prank—though it does feel like something they would have done for fun.

According to analyses carried out in the late 20th century, including work reported by the British Museum, this optical trick comes from microscopic particles embedded in the glass. And by “microscopic,” we’re talking on the scale of tens of nanometers. Yes, nanometers. In ancient Rome. The vibes are honestly a bit disrespectful to modern tech timelines.

The cup depicts the myth of King Lycurgus tangled in vines—very dramatic, very extra—and yet the real drama is happening in the material itself.

NANOTECH BEFORE IT WAS COOL
Here’s where things get spicy. In studies conducted in the 1990s using electron microscopy, researchers found tiny particles of gold and silver dispersed in the glass, roughly around 50–100 nanometers in size. That’s the sweet spot where metals start messing with light in very specific ways, scattering wavelengths differently depending on whether light is reflected or transmitted.

As noted in historical materials science discussions referenced by thisclaimer.com, this isn’t “nanotechnology” in the modern engineered sense—but it absolutely is nanostructure behavior. In other words, Romans weren’t calculating particle distributions on a whiteboard, but they did accidentally stumble into physics that engineers today still try to control deliberately.

So how did they do it? Likely through impurities in metal dust used during glassmaking. Gold and silver particles, when suspended in glass, create what scientists call a dichroic effect. Fancy term, simple outcome: the cup is basically a tiny optical illusion generator.

The key twist? They didn’t know why it worked. They just knew it looked expensive. Which, to be fair, is also how a lot of modern luxury tech is designed.

Today, materials scientists study objects like the Lycurgus Cup to understand early accidental nanotechnology. It sits in the awkward historical category of “they absolutely didn’t mean to do this, but they did it anyway and now we’re impressed.”

It also quietly challenges the idea that advanced material science is strictly modern. Humans have been experimenting with matter for millennia—we just got better at naming it later.

So yes, this is a 1,600-year-old cup that changes color based on light. No, it is not a wizard artifact. But it does make you wonder what else ancient artisans stumbled into while just trying to make something look fancy for a banquet.

Sources:
British Museum Collection – Lycurgus Cup https://www.britishmuseum.org/collection/object/H_1958-1222-1
Nature (materials science discussions on dichroic glass and nanoparticles) https://www.nature.com/
Encyclopaedia Britannica – Lycurgus Cup https://www.britannica.com/topic/Lycurgus-Cup

The Roman Cup That Acts Like a Mood Ring (and Predates Nanotech by 1,700 Years)

Dear Cherubs, a Roman drinking cup has entered the chat from the 4th century and it is behaving suspiciously like it has opinions about lighting. Depending on how you shine it, it flips from green to glowing red like it’s trying out mood-ring cosplay long before mood rings were even a bad idea.

A CUP THAT CAN’T PICK A SIDE
Meet the famous Lycurgus Cup, a late Roman glass vessel usually dated to around the 4th century AD. In reflected light it appears greenish, but when light passes through it, it turns a deep ruby red. It’s not magic, not wizardry, and definitely not a Roman prank—though it does feel like something they would have done for fun.

According to analyses carried out in the late 20th century, including work reported by the British Museum, this optical trick comes from microscopic particles embedded in the glass. And by “microscopic,” we’re talking on the scale of tens of nanometers. Yes, nanometers. In ancient Rome. The vibes are honestly a bit disrespectful to modern tech timelines.

The cup depicts the myth of King Lycurgus tangled in vines—very dramatic, very extra—and yet the real drama is happening in the material itself.

NANOTECH BEFORE IT WAS COOL
Here’s where things get spicy. In studies conducted in the 1990s using electron microscopy, researchers found tiny particles of gold and silver dispersed in the glass, roughly around 50–100 nanometers in size. That’s the sweet spot where metals start messing with light in very specific ways, scattering wavelengths differently depending on whether light is reflected or transmitted.

As noted in historical materials science discussions referenced by thisclaimer.com, this isn’t “nanotechnology” in the modern engineered sense—but it absolutely is nanostructure behavior. In other words, Romans weren’t calculating particle distributions on a whiteboard, but they did accidentally stumble into physics that engineers today still try to control deliberately.

So how did they do it? Likely through impurities in metal dust used during glassmaking. Gold and silver particles, when suspended in glass, create what scientists call a dichroic effect. Fancy term, simple outcome: the cup is basically a tiny optical illusion generator.

The key twist? They didn’t know why it worked. They just knew it looked expensive. Which, to be fair, is also how a lot of modern luxury tech is designed.

Today, materials scientists study objects like the Lycurgus Cup to understand early accidental nanotechnology. It sits in the awkward historical category of “they absolutely didn’t mean to do this, but they did it anyway and now we’re impressed.”

It also quietly challenges the idea that advanced material science is strictly modern. Humans have been experimenting with matter for millennia—we just got better at naming it later.

So yes, this is a 1,600-year-old cup that changes color based on light. No, it is not a wizard artifact. But it does make you wonder what else ancient artisans stumbled into while just trying to make something look fancy for a banquet.

Sources:
British Museum Collection – Lycurgus Cup https://www.britishmuseum.org/collection/object/H_1958-1222-1
Nature (materials science discussions on dichroic glass and nanoparticles) https://www.nature.com/
Encyclopaedia Britannica – Lycurgus Cup https://www.britannica.com/topic/Lycurgus-Cup

The next big #EnergyStorage device could be a 1000 °C #SandBattery

With high specific heat, low thermal conductivity, and no risk of fire, sand-based energy storage systems are gaining traction in grid-scale and industrial heating applications.

by Georgina Jedikovska, Jul 17, 2025

Excerpt: "While at first glance, sand might not seem like the most high-tech solution for energy storage, its ability to capture and retain heat has been harnessed for millennia.

"Sand might not seem high-tech, but its thermal properties have been used since antiquity. #AncientEgyptians mixed sand, silt, and straw to construct homes that absorbed solar heat by day and slowly released it by night.

"Today’s engineers are taking that principle further using refined materials, insulated steel silos, and precision heating systems to build high-temperature thermal energy reservoirs using sand."

Read more:
https://interestingengineering.com/energy/sand-batteries-clean-energy-storage

Archived version:
https://archive.ph/KW2T0

#SolarPunkSunday #SandBatteries #RenewableEnergy #AncientTechnology

@wyatt_h_knott Actually, the Aztecs invented rubber, which was re-invented in the 1800s. I just found out about that myself.

Aztec, Maya Were Rubber-Making Masters?

Ancients blended plant juices to get bouncier or tougher rubber, study says.

By Rachel Kaufman
Published June 30, 2010

"Ancient civilizations in much of #Mexico and #CentralAmerica were making different grades of rubber 3,000 years before Charles #Goodyear 'stabilized' the stuff in the mid-19th century, new research suggests.

"The #Aztec, #Olmec, and #Maya of #Mesoamerica are known to have made rubber using natural latex—a milky, sap-like fluid found in some plants. Mesoamerica extends roughly from central Mexico to Honduras and Nicaragua.

"Ancient rubber makers harvested #latex from #RubberTrees and mixed it with juice from #MorningGlory vines, which contains a chemical that makes the solidified latex less brittle."

Read more:
https://www.nationalgeographic.com/science/article/100628-science-ancient-maya-aztec-rubber-balls-beheaded

Archived version:
https://archive.ph/XMpwr

#AncientTechnology #SolarPunkSunday #TraditionalTechnology #IndigenousHistory

These 2,000-year-old cave homes naturally regulate temperature without electricity—but they come with a deadly risk.
#AncientTechnology #SustainableLiving #History #Architecture #EarthHomes
Read more:https://www.ancient-origins.net/ancient-places-asia/yaodongs-cave-dwellings-ancient-world-002801

Researchers find 3,500-year-old loom that reveals textile revolution

https://web.ua.es/en/actualidad-universitaria/2026/marzo2026/23-31/ua-researchers-find-3-500-year-old-loom-that-reveals-key-aspects-of-textile-revolution-in-the-bronze-age.html

#HackerNews #textilehistory #ancienttechnology #BronzeAge #archaeology #discoveries #loom

Researchers find 3,500-year-old loom that reveals textile revolution

https://web.ua.es/en/actualidad-universitaria/2026/marzo2026/23-31/ua-researchers-find-3-500-year-old-loom-that-reveals-key-aspects-of-textile-revolution-in-the-bronze-age.html

#HackerNews #textilehistory #ancienttechnology #BronzeAge #archaeology #discoveries #loom

Researchers find 3,500-year-old loom that reveals textile revolution

https://web.ua.es/en/actualidad-universitaria/2026/marzo2026/23-31/ua-researchers-find-3-500-year-old-loom-that-reveals-key-aspects-of-textile-revolution-in-the-bronze-age.html

#HackerNews #textilehistory #ancienttechnology #BronzeAge #archaeology #discoveries #loom

Researchers find 3,500-year-old loom that reveals textile revolution

https://web.ua.es/en/actualidad-universitaria/2026/marzo2026/23-31/ua-researchers-find-3-500-year-old-loom-that-reveals-key-aspects-of-textile-revolution-in-the-bronze-age.html

#HackerNews #textilehistory #ancienttechnology #BronzeAge #archaeology #discoveries #loom

Researchers find 3,500-year-old loom that reveals textile revolution

https://web.ua.es/en/actualidad-universitaria/2026/marzo2026/23-31/ua-researchers-find-3-500-year-old-loom-that-reveals-key-aspects-of-textile-revolution-in-the-bronze-age.html

#HackerNews #textilehistory #ancienttechnology #BronzeAge #archaeology #discoveries #loom

Solved! What Is a #Cistern?

Learn more about how #cisterns collect water and ways the collected water can be used around the home and #garden.

By Deirdre Mundorf
Updated Nov 28, 2022 2:56 PM EST

Excerpt:

"Q: A house I’m considering buying has a cistern. I know cisterns are used for water collection, but I don’t fully understand the cistern definitions I’ve found online or what a cistern’s benefits are. What is a cistern?

A: Between worsening droughts, extreme temperatures, and high water bills in many places, homeowners are looking for alternative methods to save water and reduce their out-of-pocket costs. Enter cisterns, which allow individuals to collect rainwater for use around the home and garden. They may be a good option in rural areas, regions with frequent droughts or water usage restrictions, and homeowners looking to reduce their water bills and environmental impact.

[At the link] below are more detailed answers on what a cistern is, how the water from a cistern can be used, and some considerations to help you decide whether a home with a cistern is right for you.

A cistern is a reservoir for collecting rainwater for household or garden use.

What is a water cistern? Cisterns collect and store rainwater, allowing individuals to reuse the water for household, gardening, and other uses. How does a cistern work? While that can vary between one system and the next, the general idea is the same. When it rains, rainwater is directed through pipes to the cistern tank. Leaves, dirt, and other debris are stopped by mesh screens in the pipes, ensuring that the water that reaches the tank is as contaminant-free as possible.

Nearly all cistern tanks are installed underground. This is the ideal storage location because temperatures stay more consistent and the water and tank are protected against pests and animals."

Lear more:
https://www.bobvila.com/articles/what-is-a-cistern/

#SolarPunkSunday #AncientTechnology
#ModernAdaptations #WaterIsLife #RainwaterCollection #RainwaterCisterns
#BobVila

#Cistern #WaterSystems: How They Work and Why They’re Useful

By Robert Maxwell
Updated on Sep. 26, 2025

"Has your interest in alternative water systems made you ask, what is a cistern? Read on to learn about this ancient way to store and supply water.

The basic idea of a cistern water system, which collects and stores water in or near a home, goes back centuries. In some parts of #WesternAsia, archeologists discovered lime plaster cisterns in the floors of houses that were at least 5,000 years old. Ancient #Romans also used cisterns beneath their houses to catch, filter and store #rainwater.

A cistern is a closed tank, somewhat like a septic tank, but the similarities end there. Instead of sewage, it collects rainwater for household use or irrigation. A home with a well might have a large tank to store water to prevent the well pump from having to work all the time. In some cases, you could consider that tank a cistern, but according to longtime plumber Danny Pen, most cisterns are buried."

Read more:
https://www.familyhandyman.com/article/what-is-a-cistern-water-system/

#SolarPunkSunday #AncientTechnology #ModernAdaptations #Cistern #WaterIsLife #RainwaterCollection #RainwaterCisterns

The Crane Estate in #IpswichMA, which is on a hill, used a cistern system to collect and store rainwater for the entire household and their gardens!

#ThisOldHouse - What Is a #Cistern?

A cistern is a water storage system used in homes and landscapes. Learn how they work and when you might need one.

updated 6/25/2025

"A cistern is an underground tank that captures and stores rainwater that you can use for irrigation, emergencies, or daily water needs. Cisterns are especially helpful in areas with unreliable or expensive municipal water systems. We’ll explore the different types of cisterns, describe the benefits each offers, and explain how cisterns differ from wells in the guide below.

Definition of a Cistern

A cistern is a watertight tank that collects and stores water for later use and is typically made of reinforced concrete, cinder block, precast concrete, fiberglass, and steel. Your home’s gutters and downspouts usually funnel rainwater into your cistern, and you can use that water as a supplemental supply, an emergency supply, or for irrigation. Cisterns can also hold groundwater, household greywater, spring water, well water, or treated city water.

Professionals can install cisterns above ground, underground, or into building structures. Burying cisterns underground might be the best option, though, as underground cisterns keep water cool during warm months and prevent it from freezing during colder weather.

Cisterns intended for domestic use typically hold at least 5,000 gallons, but sizes and setups vary according to homeowners’ needs."

Learn more:
https://www.thisoldhouse.com/plumbing/what-is-a-cistern

#SolarPunkSunday #AncientTechnology #ModernAdaptations #WaterIsLife #RainwaterCollection #RainwaterCisterns

The Oldest Jaw Surgery in the World.

CT Scan Reveals Complex Jaw Surgery Performed 2,500 Years Ago on a Woman from the Pazyryk Culture.

Read more: https://omniletters.com/the-oldest-jaw-surgery-in-the-world/

#Archaeology #AncientMedicine #AncientSurgery #JawSurgery #ArchaeologicalDiscovery #AncientHistory #HumanHistory #Pazyryk #PazyrykCulture #Scythian #Siberia #AltaiMountains #MedicalHistory #Bioarchaeology #Anthropology #Paleopathology #CTScan #ScienceNews #ScientificDiscovery #AncientCivilizations #AncientTechnology

Discover #hashtags on Mastodon!

#Hashtag #Hashish #HashLite #Hashbrowned #KickingHash #ObviousTagIsObvious #LearningByDoing #Rehash #TagAroundAndFindOut #DasIstMeinHashTag #HashDeResistance #DiscourseButMakeItMetadata #CornedBeefDiscourse #LeHashTag #ancientTechnology #AllTagsAreEqual #TooManyHashtagsAtOnce #HashtagWithoutASubject #IAmFollowingThisIronically #TheParadoxOfDiscoverability #WhenYouGazeIntoTheTimeline
#KindlyDoNotOvertag #Hashover #HashOut
https://fedi.tips/fun-and-useful-hashtags-to-follow-on-mastodon-and-the-wider-fediverse/

Discover #hashtags on Mastodon!

#Hashtag #Hashish #HashLite #Hashbrowned #KickingHash #ObviousTagIsObvious #LearningByDoing #Rehash #TagAroundAndFindOut #DasIstMeinHashTag #HashDeResistance #DiscourseButMakeItMetadata #CornedBeefDiscourse #LeHashTag #ancientTechnology #AllTagsAreEqual #TooManyHashtagsAtOnce #HashtagWithoutASubject #IAmFollowingThisIronically #TheParadoxOfDiscoverability #WhenYouGazeIntoTheTimeline
#KindlyDoNotOvertag #Hashover #HashOut
https://fedi.tips/fun-and-useful-hashtags-to-follow-on-mastodon-and-the-wider-fediverse/

Discover #hashtags on Mastodon!

#Hashtag #Hashish #HashLite #Hashbrowned #KickingHash #ObviousTagIsObvious #LearningByDoing #Rehash #TagAroundAndFindOut #DasIstMeinHashTag #HashDeResistance #DiscourseButMakeItMetadata #CornedBeefDiscourse #LeHashTag #ancientTechnology #AllTagsAreEqual #TooManyHashtagsAtOnce #HashtagWithoutASubject #IAmFollowingThisIronically #TheParadoxOfDiscoverability #WhenYouGazeIntoTheTimeline
#KindlyDoNotOvertag #Hashover #HashOut
https://fedi.tips/fun-and-useful-hashtags-to-follow-on-mastodon-and-the-wider-fediverse/

Discover #hashtags on Mastodon!

#Hashtag #Hashish #HashLite #Hashbrowned #KickingHash #ObviousTagIsObvious #LearningByDoing #Rehash #TagAroundAndFindOut #DasIstMeinHashTag #HashDeResistance #DiscourseButMakeItMetadata #CornedBeefDiscourse #LeHashTag #ancientTechnology #AllTagsAreEqual #TooManyHashtagsAtOnce #HashtagWithoutASubject #IAmFollowingThisIronically #TheParadoxOfDiscoverability #WhenYouGazeIntoTheTimeline
#KindlyDoNotOvertag #Hashover #HashOut
https://fedi.tips/fun-and-useful-hashtags-to-follow-on-mastodon-and-the-wider-fediverse/

What actually is fire? A physicist explains
#Fire #FireScience #Combustion #PhysicsExplained #CO2 #Physics #Bushfire #AncientTechnology #ScienceFacts #Sun #EmmaBrown #EarthUnique #FireFacts #Plasma #Universe
#CQUniversity #The14 #The14Media
https://the-14.com/what-actually-is-fire-a-physicist-explains/

𝗕𝗿𝗼𝗻𝘇𝗲 𝗔𝗴𝗲 𝗛𝗼𝗮𝗿𝗱 𝗥𝗲𝘃𝗲𝗮𝗹𝘀 𝟯,𝟬𝟬𝟬-𝗬𝗲𝗮𝗿-𝗢𝗹𝗱 𝗦𝗶𝗹𝘃𝗲𝗿 𝗦𝗲𝗰𝗿𝗲𝘁
After 3,000 years underground, Scotland's Peebles Hoard is revealing a stunning secret - a technical marvel of silvery Bronze Age artifacts created in an era when silver was unknown.
#AncientOrigins #ancienttechnology #AncientHistory #AncientArtifacts
https://www.ancient-origins.net/news-history-archaeology/bronze-age-peebles-hoard-00102326

@pascaline This kind of breakthrough gives me hope that maybe, just maybe, we can achieve the #StabilizedWorld scenario -- but using #AncientTechnology combined with what we know now!

#LtG #SolarPunkSunday #RomanConcrete #TraditionalKnowledge #AncientKnowledge #OldWays

Scientist makes groundbreaking discovery while studying ancient Roman technique for concrete: 'We have a huge potential'

by Calvin Coffee
Sun, August 31, 2025

"Concrete has a massive carbon footprint. One researcher from the University of Auckland is working to reduce it by studying ancient #Roman techniques. Using natural volcanic materials and industrial byproducts, he's incorporating #pumice and #seashells to create an #EcoFriendly, traditional alternative.

"At the Structures Testing Laboratory in Newmarket, New Zealand, Enrique Del Rey Castillo blends volcanic ash and kaimoana shells as replacements in the cement-making process, leveraging their #SelfHealing properties, which can repair cracks over time through natural chemical reactions.

"This initiative is crucial, as concrete is one of the world's most polluting materials, with global cement production accounting for 8% of total carbon emissions, contributing to rising global temperatures and increasing health risks.

"Del Rey Castillo has spent years testing how local materials can serve as sustainable alternatives. After focusing on conventional substitutes such as fly ash, he shifted to natural materials available nearby.

" 'I realised we have a huge potential in New Zealand with the use of natural #volcanic materials and #byproducts of primary industries,' Del Rey Castillo said.

"Concrete is essential for constructing bridges, roads, dams, and buildings, but its production releases over 4 billion tons of carbon dioxide annually. Calcining cement-primary materials at 1,500 degrees Celsius in a kiln emits large amounts of carbon dioxide and produces chemical reactions. Each pound of concrete releases 0.93 pounds of carbon dioxide.

"Pumice, however, doesn't require the energy-intensive calcining process; it just needs to be dried at 100 degrees Celsius to remove moisture before being ground into a fine powder. 'The carbon footprint is about 8-10% of the carbon footprint of cement,' Del Rey Castillo explained."

Read more:
https://www.yahoo.com/news/articles/scientist-makes-groundbreaking-discovery-while-184500351.html

#SelfHealingConcrete #RomanConcrete #ReusingByproducts #Concrete #CarbonFootprint #Infrastructure #SolarPunkSunday #AncientTechnology

ANÁLISIS GEOGRÁFICO FÍSICO, HUMANO Y AMBIENTAL, DE LA PRODUCCIÓN Y CONSUMO DE LAS ENERGÍAS LLAMADAS RENOVABLES EN ESPAÑA.

Impresionante trabajo que deberías ver para entender muchas cosas con las que, por ignorancia, los p-olíticos nos tienen bien jo-di-dos.

#ancienttechnology #romanroads #romanengineering #Abastecimientosromanos #calzadasromanas #viasromanas #ingenieriaromana #WaterSupplySystem #RomanSurveying #Energia #Renovable #Aerogeneradores #Fotovoltaica

https://youtu.be/5MedFug-SB0

ANÁLISIS GEOGRÁFICO FÍSICO, HUMANO Y AMBIENTAL, DE LA PRODUCCIÓN Y CONSUMO DE LAS ENERGÍAS LLAMADAS RENOVABLES EN ESPAÑA.

Impresionante trabajo que deberías ver para entender muchas cosas con las que, por ignorancia, los p-olíticos nos tienen bien jo-di-dos.

#ancienttechnology #romanroads #romanengineering #Abastecimientosromanos #calzadasromanas #viasromanas #ingenieriaromana #WaterSupplySystem #RomanSurveying #Energia #Renovable #Aerogeneradores #Fotovoltaica

https://youtu.be/5MedFug-SB0

6 traditional architectural solutions that can help us adapt to #ExtremeWeather

Aug 10, 2023

"Extreme weather is one of the top two threats facing the world in the next two years, according to the World Economic Forum’s Global Risks Report 2023.

"The race is on to make our homes able to withstand the effects of the #ClimateCrisis.

"Could these innovations from the past be part of the solution?"

Read more:
https://www.weforum.org/stories/2023/08/traditional-architecture-extreme-weather-climate/

#SolarPunkSunday #TraditionalArchitecture #AncientTechnology #AncientArchitecture #TurfHomes #CoolingChimneys #PlatformHomes #Skywells #Aqueducts

Ancient Egyptian ‘Air Conditioning’ Could Help Cool Modern Buildings

One research team hopes to harness 5,000-year-old ideas to battle rising temperatures.

By Andrew Paul, August 22, 2023

"While the planet continues to endure scorching, unprecedented temperatures, a 60-square-foot shipping container is serving as a testing ground for passive, sustainable cooling solutions. As detailed in a 2023 study published in the research journal Energies, an engineering team at Washington State University utilized the space to find and improve upon ancient cooling methods that don’t generate any forms of greenhouse gas—including water evaporation atop repurposed wind towers.

"Buildings require roughly 60 percent of the entire world’s electricity, almost 20 percent of which is annually earmarked to keep those structures cool and comfortable. As society contends with climate change’s most ravaging effects, air conditioning systems’ requirements are only expected to rise in the coming years—potentially generating a feedback loop that could exacerbate carbon emission levels. Finding green ways to lower businesses’ and homes’ internal temperatures will therefore need solutions other than simply boosting wasteful AC units.

"This is especially vital as rising global populations require new construction, particularly within the developing world. According to Omar Al-Hassawi, lead author and assistant professor in WSU’s School of Design and Construction, this push will be a major issue if designers continue to rely on mechanical systems—such as traditional, electric AC units. 'There’s going to be a lot more air conditioning that’s needed, especially with the population rise in the hotter regions of the world,' Al-Hassawi said in a statement.

" 'There might be [some] inclusion of mechanical systems, but how can we cool buildings to begin with—before relying on the mechanical systems?' he adds.

"By retrofitting their shipping container test chamber with off-the-grid, #solar powered battery storage, AL-Hassawi’s team can heat their chamber to upwards of 130 degrees Fahrenheit to test out their solutions while measuring factors such as air velocity, temperature, and humidity. The team is particularly focused on optimizing a passive cooling method involving large towers and evaporative cooling that dates as far back as 2,500 BCE in ancient Egypt. In these designs, moisture evaporates at the tower’s top, which turns into cool, heavier air that then sinks down to the habitable space below. In the team’s version, moisture could be generated via misting nozzles, shower heads, or simply water-soaked pads.

" 'It’s an older technology, but there’s been an attempt to innovate and use a mix of new and existing technologies to improve performance and the cooling capacity of these systems,' explained Al-Hassawi, who also envisions retrofitting smokestacks in older buildings to work as new #CoolingTowers.

" 'That’s why research like this would really help,' he adds. 'How can we address building design, revive some of these more ancient strategies, and include them in contemporary building construction? The test chamber becomes a platform to do this.' "

Source:
https://getpocket.com/explore/item/ancient-egyptian-air-conditioning-could-help-cool-modern-buildings?utm_source=firefox-newtab-en-us

#AncientTechnologies #SolarPunkSunday #CoolingSolutions
#ExtremeHeat #AncientTechnology #ClimateChange

This is Why Atheists Want This Temple Demolished

Look at this amazing carving from the Nellaiyappar temple! It shows a detailed guide to rhythm in Carnatic music.
Watch full video: https://youtu.be/6b9c5gk7K30

#praveenmohan #music #ancientknowledge #talam #ancienttechnology #ancienttemple #ancientindians #Carnaticmusic

The Surprising Origin of Telescope
A strange device called the 'Dhruva Darshak Yantra' is found in an astronomical observatory called Jantar Mantar. Is it possible that this is the world's first telescope?
Watch full video : https://youtu.be/YLCz8_yA-T8

#praveenmohan #astronomy #ancienttechnology #jantarmantar #ancientknowledge #ancientastronomy #northstar #polaris #telescope

Rulers of the Ancient World — Literally! - If you were expecting a post about ancient kings and queens, you are probably at t... - https://hackaday.com/2024/07/13/rulers-of-the-ancient-world-literally/ #ancienttechnology #measurement #history #ruler

Rulers of the Ancient World — Literally! https://hackaday.com/2024/07/13/rulers-of-the-ancient-world-literally/ #ancienttechnology #measurement #History #ruler