Showing posts sorted by relevance for query 1666. Sort by date Show all posts
Showing posts sorted by relevance for query 1666. Sort by date Show all posts

Friday, May 01, 2020

Loimographia : an account of the Great Plague of London in the year 1665

Topics Plague
Publisher London : Shaw and Sons

THE PLAGUE RESULTED IN THE GREAT FIRE AND CONFLAGRATION 



Sunday, May 03, 2020

An introduction to astrology:
by Lilly, William, 1602-1681; Zadkiel, 1795-1874
Publication date 1852
Topics Astrology
https://archive.org/details/anintroductiont00zadkgoog/page/n16/mode/2up
Lilly predicted the Great London Fire of 1666 
he was one of the few successful Astrologers in History
for hoary astrology, that is astrology predicting events in the mundane world
See https://plawiuk.blogspot.com/search?q=1666

Thursday, January 20, 2022

Magic, Medicine and Authority in Mid-Seventeenth-Century Muscovy: 
Andreas Engelhardt (d. 1683) and the Role of the Western Physician at the Court of Tsar Aleksei Mikhailovich, 1656-1666

R. Collis / Russian History 40 (2013) 399–427
© Koninklijke Brill NV, Leiden, 2013
Russian History 40 (2013) 399–427
brill.com/ruhi

Abstract

In Early Modern Europe court physicians exerted great influence in service to their royal patrons. These medical practitioners acted as learned conduits, whose knowledge of natural philosophy, which often included occult theories of healing, natural magic and astrology, was able to serve the broad interests of their patrons. Thus, in addition to being charged with maintaining the health of a ruler, physicians were often exploited by monarchs seeking to enhance the general health of their body politic. This case study of the German physician Andreas Engelhardt examines his decade-long ser- vice in Moscow between 1656 and 1666 at the court of Aleksei Mikhailovich. This study of Engelhardt's role at court at a time of increased Western influence in Muscovy aims to reveal how the tsar sought to utilize the learning of his German physician in a variety of* Robert Collis is a Leverhulme Early Career Fellow at The University of Sheffield(UK). His publications include the monograph
The Petrine Instauration: Religion, Esotericism and Science at the Court of Peter the Great, 1689-1725 ways. Engelhardt not only administered Western medical remedies, including the use of unicorn horns, to the royal family, but was also instructed to ascertain whether various Russian and Siberian folk remedies possessed beneficent qualities. This process of legitimization and containment of medical knowledge coincided with an attempt to suppress the authority of folk healers, thereby reflecting the autocratic nature of Aleksei Mikhailovich's reign. Furthermore, this article demonstrates that the tsar drew on Engelhardt’s supposed expertise in astrology and divination in order to know how Muscovy would be affected by the appearance of a comet in the winter of 1664-1665.


Russia and the Medical Drug Trade in the Seventeenth Century

Clare Griffin*

Summary.

 This article deals with the trade in medicines into Russia in the seventeenth century. Both the early modern medical drug trade, and Russian medicine, have previously received substantial attention, but no work has thus far been undertaken on the Russian angle of the drug trade. Drawing on previously unused documents, this article traces the kinds of drugs acquired by the Moscow court. In contrast to the dominant view of official Russian medicine as divorced from native healing practices and fundamentally reliant upon Western European trends, these documents re-veal that drugs were sourced as locally as Moscow markets, and from as far afield as East Asia and the Americas, but that not all drugs were accepted. As many of these imports came through Western European markets, this article also sheds further light on what drugs were available there, demonstrating the great diversity of drugs traded in early modern Europe.

https://tinyurl.com/y2h48pd7


Exotic Drugs and English Medicine: England’s Drug Trade, c 1550c. 1800


Patrick Wallis*

Summary.
What effect did the dramatic expansion in long distance trade in the early modern period have on healthcare in England?

This article presents new evidence on the scale, origins and content of English imports of medical drugs between 1567 and 1774. It shows that the volume of imported medical drugs exploded in the seventeenth century, and continued growing more gradually over the eighteenth century. The variety of imported drugs changed more slowly. Much was re-exported, but estimates of dosages suggest that some common drugs (for example, senna, Jesuits ’Bark) were available to the majority of the population in the eighteenth century. English demand for foreign drugs provides further evidence for a radical expansion in medical consumption in the seventeenth century. It also suggests that much of this new demand was met by purchasing drugs rather than buying services





Wednesday, May 25, 2022

The Conscious Universe


The radical idea that everything has elements of consciousness is reemerging and breathing new life into a cold and mechanical cosmos.



Matthew Craven
FEATUREPHILOSOPHY & CULTURE
BY JOE ZADEHNOVEMBER 17, 2021
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Joe Zadeh is a writer based in Newcastle.

London was a crowded city in 1666. The streets were narrow, the air was polluted, and inhabitants lived on top of each other in small wooden houses. That’s why the plague spread so easily, as well as the Great Fire. So did gossip, and the talk of the town was Margaret Cavendish, the Duchess of Newcastle.

Cavendish was a fiery novelist, playwright, philosopher and public figure known for her dramatic manner and controversial beliefs. She made her own dresses and decorated them in ribbons and baubles, and once attended the theater in a topless gown with red paint on her nipples. In his diaries, Samuel Pepys described her as a “mad, conceited, ridiculous woman,” albeit one he was obsessed with: He diarized about her six times in one three-month spell.

The duchess drew public attention because she was a woman with ideas, lots of them, at a time when that was not welcome. Cavendish had grown up during the murderous hysteria of the English witch trials, and her sometimes contradictory proto-feminism was fueled by the belief that there was a parallel to be drawn between the way men treated women and the way men treated animals and nature. “The truth is,” she wrote, “we [women] Live like Bats or Owls, labour like Beasts and die like Worms.”

In 1666, she released “The Blazing World,” a romantic and adventurous fantasy novel (as well as a satire of male intellectualism) in which a woman wanders through a portal at the North Pole and is transported to another world full of multicolored humans and anthropomorphic beasts, where she becomes an empress and builds a utopian society. It is now recognized as one of the first-ever works of science fiction.

But this idea of a blazing world was not just fiction for Cavendish. It was a metaphor for her philosophical theories about the nature of reality. She believed that at a fundamental level, the entire universe was made of just one thing: matter. And that matter wasn’t mostly lifeless and inert, like most of her peers believed, but animate, aware, completely interconnected, at one with the stuff inside us. In essence, she envisioned that it wasn’t just humans that were conscious, but that consciousness, in some form, was present throughout nature, from animals to plants to rocks to atoms. The world, through her eyes, was blazing.

Cavendish was not the only one to have thoughts like these at that time, but they were dangerous thoughts to have. In Amsterdam, the Jewish philosopher Baruch Spinoza wrote that every physical thing had its own mind, and those minds were at one with God’s mind; his books were banned by the church, he was attacked at knifepoint outside a synagogue, and eventually, he was excommunicated. Twenty-three years before Cavendish was born, the Italian Dominican friar and philosopher, Giordano Bruno — who believed the entire universe was made of a single universal substance that contained spirit or consciousness — was labeled a heretic, gagged, tied to a stake and burned alive in the center of Rome by the agents of the Inquisition. His ashes were dumped in the Tiber.

If the dominant worldview of Christianity and the rising worldview of science could agree on anything, it was that matter was dead: Man was superior to nature. But Cavendish, Spinoza, Bruno and others had latched onto the coattails of an ancient yet radical idea, one that had been circulating philosophy in the East and West since theories of mind first began. Traces of it can be found in Hinduism, Buddhism, Taoism, Christian mysticism and the philosophy of ancient Greece, as well as many indigenous belief systems around the world. The idea has many forms and versions, but modern studies of it house them all inside one grand general theory: panpsychism.
“If the panpsychists are right, it could cast doubt on the foundations of a worldview that has been deeply embedded in our psyche for hundreds of years: that humans are superior to everything around them.”
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Derived from the Greek words pan (“all”) and psyche (“soul” or “mind”), panpsychism is the idea that consciousness — perhaps the most mysterious phenomenon we have yet come across — is not unique to the most complex organisms; it pervades the entire universe and is a fundamental feature of reality. “At a very basic level,” wrote the Canadian philosopher William Seager, “the world is awake.”

Plato and Aristotle had panpsychist beliefs, as did the Stoics. At the turn of the 12th century, the Christian mystic Saint Francis of Assisi was so convinced that everything was conscious that he tried speaking to flowers and preaching to birds. In fact, the history of thought is dotted with very clever people coming to this seemingly irrational conclusion. William James, the father of American psychology, was a panpsychist, as was the celebrated British mathematician Alfred North Whitehead; the Nobel Prize-winning physicist Max Planck once remarked in an interview, “I regard consciousness as fundamental.” Even the great inventor Thomas Edison had some panpsychist views, telling the poet George Parsons Lathrop: “It seems that every atom is possessed by a certain amount of primitive intelligence.”

But over the course of the 20th century, panpsychism came to be seen as absurd and incompatible in mainstream Western science and philosophy, just a reassuring delusion for New Age daydreamers. Karl Popper, one of the most influential philosophers of recent times, described it as “trivial” and “grossly misleading.” Another heavyweight, Ludwig Wittgenstein, waved away the theory: “Such image-mongery is of no interest to us.” As the American philosopher John Searle put it: “Consciousness cannot be spread across the universe like a thin veneer of jam.”

Most philosophers and scientists with panpsychist beliefs kept them quiet for fear of public ridicule. Panpsychism used “to be laughed at insofar as it was thought of at all,” wrote the philosopher Philip Goff in his latest book, “Galileo’s Error: Foundations for a New Science of Consciousness.” But now, we are in the midst of a “full-blown panpsychist renaissance.” Goff is one of a rising tide of thinkers around the world who have found themselves drawn back to this ancient theory. Spurred on by scientific breakthroughs, a lost argument from the 1920s and the encouraging way panpsychism is able to bypass the “hard problem” of consciousness, they are beginning to rebuild and remodel its intellectual foundations, transforming it into a strong candidate for the ultimate theory of reality.

“According to panpsychism,” Goff told me when we met recently in the garden of a pub near Durham University, where he teaches, “consciousness pervades the universe and is a fundamental feature of it. So, it doesn’t necessarily mean everything is ‘conscious.’ The basic idea is that the fundamental building blocks of the universe, perhaps electrons and quarks, have incredibly simple forms of experience, and very complex experience — like that of a human brain — is somehow built up from these very simple and rudimentary forms of experience. … That doesn’t mean your chair is conscious. It means the tiny particles the chair is made up of have some kind of rudimentary experience.”

If the panpsychists are right, it could cast doubt on the foundations of a worldview that has been deeply embedded in our psyche for hundreds of years: that humans are superior to everything around them, disconnected from the insensate matter of nature, marooned on a crumbling planet in a cold and mechanical universe. Panpsychism re-enchants the world, embeds us profoundly within the climate crisis and places us on a continuum of consciousness with all that we see around us.

“We have become used to the Copernican idea that we are not at the center of the universe but simply one planet among many,” Goff wrote in his first book, “Consciousness and Fundamental Reality.” “Perhaps it’s time for a Copernican revolution about our own consciousness.”

The notion of a world awake might seem unintuitive to most of us, but it is something we adopt naturally in childhood. In 1929, the Swiss psychologist Jean Piaget found that children between two and four years old are inclined to attribute consciousness to everything around them. A child can happily talk to a grasshopper and blame the pavement if they trip up, and it isn’t such an alien thought, at that age, to think a flower might feel the sunlight and perhaps even enjoy it. Fairy tales and children’s media are infused with animate worlds in which trees, animals and objects come to the aid or annoyance of a protagonist.

Most of us dismiss these notions as we mature. Gradually, we rein the concept of consciousness closer and closer in, until, at least in the West, we usually settle on the traditional view that consciousness is present only in the brains of humans and higher animals.

Along with this goes the premise that consciousness must have sparked into existence from completely non-conscious matter quite recently, cosmically speaking — and only in a tiny corner of the universe. Perhaps a few hundred million years ago, a light bulb flickered on, and something somewhere felt reality for the first time. Before that miraculous spark, the great physicist Erwin Schrodinger wondered, was the universe “a play before empty benches, not existing for anybody, thus quite properly speaking not existing?” As for which higher animals have it and which don’t, there is no agreement, but we have a vague sense. Monkeys and dolphins, definitely conscious; cats and dogs, surely; worms, butterflies and Antarctic krill, probably not.

But in the last 10 years or so, this understanding has been repeatedly disrupted by new scientific breakthroughs. We are now well versed in the playfulness and creativity of cephalopods, the intelligent communication between fungi and the interspecies sharing economy in forests. Honeybees recognize faces, use tools, make collective decisions, dance to communicate and appear to understand higher-order concepts like zero. Plants can feel you touching them. In fact, the evolutionary ecologist Monica Gagliano has suggested that pea plants can learn behavior, identify the sound of running water and grow towards it and communicate via clicking sounds. When you consider that plants account for around 80% of the total biomass on Earth (the biomass of humans is roughly equivalent to that of Antarctic krill), then extending consciousness to them would mean we are living on a vastly conscious planet.

Recent research into slime mold — a single-celled eukaryotic organism that has no brain, no nervous system and looks like a yellow puddle — found that it makes decisions, perceives its surroundings and can choose the most nutritious food from numerous options. As an experiment, researchers arranged oat flakes in the geographical pattern of cities around Tokyo, and the slime mold constructed nutrient channeling tubes that closely mimicked the painstakingly planned metropolitan railway system. At Columbia University, the biologist Martin Picard has discovered that mitochondria, the organelles found in the cells of almost every complex organism, “communicate with each other and with the cell nucleus, exhibit group formation and interdependence, synchronize their behaviors and functionally specialize to accomplish specific functions within the organism.” Nobody is concluding that mitochondria are conscious, but if an animal the size of a dog acted like this, would we intuitively ascribe to it some basic level of consciousness?

“I find it striking,” the neuroscientist Christof Koch told me on a video call, “that after 2,400 years, we are now back to panpsychism. This is like scientists discussing whether the Earth is actually flat, or if the heart is the seat of the soul. I mean …”
“Panpsychism re-enchants the world, embeds us profoundly within the climate crisis and places us on a continuum of consciousness with all that we see around us.”
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Koch, one of the world’s most renowned neuroscientists, is the chief scientist of the MindScope Program at the Allen Institute for Brain Science in Seattle. Throughout the 1990s and early 2000s, he worked closely with the late Nobel Laureate Francis Crick (who, alongside James Watson, Maurice Wilkins and Rosalind Franklin, discovered the double helix structure of DNA) to build the foundations for a neuroscience of consciousness.

In recent years, Koch has become a champion and staunch defender of Integrated Information Theory (IIT), a leading theory in the neuroscience of consciousness developed by the Italian neuroscientist and psychiatrist Giulio Tononi. IIT is concerned with developing a method to measure the amount of integrated information (which, it posits, represents consciousness) in a physical system. In other words, is something conscious and, if so, how conscious? One of Tononi and Koch’s many ambitions is to create a practical device, “a consciousness meter,” which could measure the level of consciousness in patients in a vegetative state.

Tononi’s scientific research aligned with what some philosophers of consciousness believe about panpsychism: “It says consciousness is graded and much more widely distributed,” Koch said. “Giulio tried to downplay that at first because he felt people would then reject it out of hand, but I kept on pushing.” In 2015, they published a paper together titled “Consciousness: Here, There and Everywhere?” in which they stated that while IIT was not developed with panpsychism in mind, it did seem to share its central intuitions.

“A lot of people say that’s wacky: Any theory that predicts a microbe is conscious is crazy because it’s so different from my insight into the state of the world,” Koch told me. When people hear the word consciousness, he explained, they assume qualities like self-awareness, emotion, pleasure and pain, but here we are talking about a degree of consciousness that is far more basic: experience. “Clearly, the paramecium doesn’t have psychology; it doesn’t hear bees, it doesn’t worry about the weekend. But the claim is: It feels like something to be the paramecium — and once the cell membrane dissolves and it disintegrates and dies, it doesn’t feel like anything anymore.”

In 2013, Koch traveled to a Tibetan monastery in southern India for a symposium on physics, biology and brain science between Buddhist monk-scholars and Western scientists where he presented the contemporary Western consensus that only humans and some animals are blessed with consciousness. While there, Koch helped with teaching at the monastery. “We showed some movies of little bacteria moving around and asked them what they thought,” he told me. “They said they were clearly sentient. They had no trouble with that.”






Matthew Craven

Arthur Stanley Eddington was a pacifist Quaker from a family of farmers in the north of England. In 1913, at the age of 30, he started working as a professor of astronomy at Cambridge. Six years later, he and the Royal Astronomer Frank Watson Dyson became perhaps the first scientists to prove Albert Einstein’s general theory of relativity, catapulting Einstein, who was then mostly unknown in the English-speaking world so soon after the end of World War I, to global notoriety. Eddington and Dyson organized expeditions to Principe and Brazil to observe a solar eclipse and record what Einstein had predicted: Gravity bends light. Newton was overthrown, and a new revolution in science began.

Upon his return from Brazil, Eddington dove into the work of the mathematician Bertrand Russell. One of Russell’s observations, first developed in the 1920s and furthered in the 1950s, was this: “All that physics gives us is certain equations giving abstract properties of their changes. But as to what it is that changes, and what it changes from and to — as to this, physics is silent.” In other words, while physical science might appear to give us a nearly complete account of the nature of matter — what everything is made of — it really only provides a description of mathematical structures: the “causal skeleton” of reality. These descriptions are incredibly valuable and have led to many of humanity’s greatest scientific achievements, because they can be used to predict how matter will behave. But as Goff said to me: “Physical science only tells us what stuff does, not what stuff is. It’s not telling us the underlying nature of the stuff that is behaving in this way.”

Consider this crude breakdown of water. What is water? Water is a colorless, transparent, odorless chemical substance that fills our oceans, lakes, rivers and bodies. But what is it composed of? It is composed of sextillions and sextillions of tiny water molecules. What are they composed of? Well, each molecule contains three atoms: two hydrogen and one oxygen. And what are hydrogen and oxygen made of? Subatomic particles like neutrons and electrons. What is an electron made of? An electron has mass and charge. And what are mass and charge? They are properties of the electron. But what is the electron?

“When I was a young physics student,” wrote the astrophysicist Adam Frank in a 2017 essay, “I once asked a professor: ‘What’s an electron?’ His answer stunned me. ‘An electron,’ he said, ‘is that to which we attribute the properties of the electron.’ That vague, circular response was a long way from the dream that drove me into physics, a dream of theories that perfectly described reality.” In a strange and convoluted way, there is a sense in which we don’t really know what water is. We don’t really know what anything is. As Stephen Hawking wrote in “A Brief History of Time”: “Even if there is only one possible unified theory, it is just a set of rules and equations. What is it that breathes fire into the equations and makes a universe for them to describe?”

Eddington, who by the late 1920s was seen as one of the greatest living scientists in the world, agreed with Russell: “The physicist cannot get behind structure,” he wrote in a glowing review of Russell’s 1927 book “The Analysis of Matter.” That same year, Eddington was invited to give the prestigious annual Gifford Lectures in Edinburgh, which he then turned into his own book, “The Nature of the Physical World.” Written for a wider audience, it contained echoes of Russell and became one of the most influential popular science books of the era, selling 72,000 copies in Britain alone.

“Even if there is only one possible unified theory, it is just a set of rules and equations. What is it that breathes fire into the equations and makes a universe for them to describe?”
— Stephen Hawking

“The Victorian physicist felt that he knew just what he was talking about when he used such terms as matter and atoms,” wrote Eddington. “Atoms were tiny billiard balls, a crisp statement that was supposed to tell you all about their nature in a way which could never be achieved for transcendental things like consciousness, beauty or humor. But now we realize that science has nothing to say about the intrinsic nature of the atom. The physical atom is, like everything else in physics, a schedule of pointer readings” — measurements on a machine.

Eddington, like Russell before him, felt that the intrinsic nature of matter, the thing that has mathematical structure, could be integral to explaining consciousness. He wrote that there is one clump of matter that we know and experience directly, not through perceptions, equations or measuring devices: the matter that constitutes our brains. We know that the intrinsic matter that constitutes our brains must involve consciousness because that is our rich and subjective moment-to-moment experience of reality.

Throughout the history of consciousness studies, the mind-body problem has caused theory after theory to collapse and falter. How does the matter of the brain, which we know and understand, give rise to the mystery of consciousness? Eddington’s panpsychist argument, said Goff, “turned the problem upside down.” In Eddington’s view, matter is the mystery; consciousness is the thing we understand better than anything else. The only matter we experience directly is the matter in our living brains, and we know that to be conscious. Therefore, we have good reason to believe that all matter is conscious. And while critics of panpsychism are quick to challenge its proponents to prove that consciousness is the intrinsic nature of matter, the panpsychists are equally poised to respond: Prove that it isn’t.

This argument, Goff wrote in “Galileo’s Error,” “is hard to really absorb” because “it is diametrically opposed to the way our culture thinks about science. But if we manage to do so, it becomes apparent that the simplest hypothesis concerning the intrinsic nature of matter outside of brains is that it is continuous with the intrinsic nature of matter inside of brains.” As Eddington wrote in the conclusion to his book: “The stuff of the world is mind-stuff.” Consciousness didn’t emerge or flicker into existence; it has always been there — the intrinsic nature of us and everything around us. This is what breathes fire into the equations.

Despite the popularity of Russell and Eddington’s work in the 1920s and 30s, these ideas were largely lost. Western academia was then being seized by a group known as the Vienna Circle and their logical positivism movement. Interwar Europe was being overrun by extremist violence, dogmatic ideologies and political propaganda, and the logical positivists railed against it all by calling for “exact thinking in demented times” — strict scientific standards and rigorous objectivity. Logical positivism swept through Anglo-American universities and caused a wholesale rejection of abstract metaphysical discussions. The scientific method relied on what could be observed; what went on inside the mind was largely ignored in favor of how humans behaved, ushering in the rise of B.F. Skinner and behavioral psychology. Eddington’s work in particular remained forgotten until Galen Strawson, one of the elder statesmen of modern British philosophy, found his book on the shelf of a holiday home in Scotland and used it to bolster his modern argument for panpsychism.

Since the 1930s, our scientific understanding of the fundamental building blocks of reality has become even weirder. Particles have been shown to behave like waves and waves like particles, depending on the experimental conditions. Particles no longer seem to be the fixed and knowable objects they once were, and different particle physicists will give you different answers to the question, “What is a particle?” Perhaps it is a quantum excitation of a field, vibrating strings or simply what we measure in detectors. “We say they are ‘fundamental,’” Xiao-Gang Wen, a theoretical physicist at the Massachusetts Institute of Technology, told Quanta Magazine. “But that’s just a [way to say] to students, ‘Don’t ask! I don’t know the answer. It’s fundamental; don’t ask anymore.’”

“Physical science only tells us what stuff does, not what stuff is. It’s not telling us the underlying nature of the stuff that is behaving in this way.”
— Philip Goff

In a landmark 2003 essay, Strawson wrote that this ambiguity only strengthened the argument for panpsychism. The idea of our brains as “lumpish, inert matter, dense or corpuscled, stuff that seems essentially alien to the phenomenon of consciousness,” he wrote, “has given way to fields of energy, essentially active diaphanous process-stuff that — intuitively — seems far less unlike the process of consciousness.” Physics doesn’t show our brain as a spongey blood-filled mass composed of tiny concrete particles, but as “an astonishingly (to us) insubstantial-seeming play of energy, an ethereally radiant vibrancy.”

Of course, panpsychism has its flaws. In October, the Journal of Consciousness Studies dedicated an entire issue to responding to Goff’s book. It featured both critical and supportive essays from philosophers, psychologists, neuroscientists, the bestselling author Annaka Harris and renowned physicists like Carlo Rovelli, Sean Carroll and Lee Smolin. “The real problem with panpsychism is not that it seems crazy,” wrote the British neuroscientist Anil Seth in his essay, “it is that it explains nothing and does not generate testable predictions.”

Physicists critical of it have said it is trying to add something new into our scientific picture of reality that wasn’t there before, and that would therefore require alterations to the proven laws of physics to accommodate it. But in one of the journal essays that addressed this point, the philosopher Luke Roelofs (of NYU’s Center for Mind, Brain and Consciousness) argued the opposite: Nothing is being added to our scientific picture of the world — this is just a different interpretation of that picture. “It rests on recognizing that the physical picture itself is just under-specified: It tells us how this thing called an ‘electron’ behaves, and how these properties called ‘charge’ affect that behavior, but never says (never could say) what any of this is in and of itself.” In other words: Consciousness is exactly what the physicists have been studying the structure and behavior of all along. “For a panpsychist,” Goff said, “the story of physics is the story of consciousness. All there is is forms of consciousness, and physics tracks what they do.”

The most notorious hurdle for panpsychism is known as the combination problem. It has been framed in various ways, but its essence is this: How can lots of tiny conscious entities, like fundamental particles, combine to create one big conscious entity, like the human mind? Goff has explored a possible solution via quantum entanglement. The Norwegian panpsychist philosopher Hedda Hassel Mørch has worked with Tononi and IIT to overcome it. And Roelofs has investigated split-brain cases — a radical procedure used for severe epilepsy in which a patient’s corpus callosum, which connects the two hemispheres of the brain, is severed — that seem to result in patients experiencing a split or partial split of consciousness. If consciousness can be split, then why couldn’t it be combined?

“Some people dismiss panpsychism simply because the combination problem has not yet been solved,” Goff wrote in “Galileo’s Error.” “To my mind, this is like someone in 1859 rejecting Darwinism on the basis that ‘On The Origin of Species’ did not contain a completely worked-out history of the evolution of the human eye.” Panpsychism as a research program, he told me, is only just getting started.

In the freezing winter of Boxing Day, 1966, the medieval historian Lynn Townsend White Jr. delivered a speech to the American Association for the Advancement of Science in Washington. Fifty-nine years old at the time, White was a rigorous and provocative historian, and also a devout Christian. But through his studies, he had found something that deeply troubled him, something he felt resonated with the time in which he lived. In 1960s America, the general American public was becoming aware of the effects of pollution and global warming. Rachel Carson’s “Silent Spring” had been out for a couple years, and the landmark Air Quality Act (1967) and the Clean Air Act (1970) were not far off. Just four weeks before White gave his speech in Washington, a toxic copper-colored cloud of acrid smog, so thick it could be wiped off car windscreens, smothered New York for three days, causing 168 deaths and adverse health conditions for hundreds of thousands of people.

How we view the world determines how we treat it, and White felt the roots of the climate crisis went deep into ancient history. They must be analyzed, he thought, because to address the climate crisis we must rethink the fundamental mindset that caused it, without which our solutions might create even more serious problems than they solve. “What people do about their ecology,” he said during his speech, “depends on what they think about themselves in relation to things around them.” In his eyes, the causes weren’t solely scientific, technological, political or economic — they were ideological. Christianity in the West, he thought, was what first separated man from nature and established a relationship of superiority and exploitation with everything around.

Prior to Christianity, ancient paganism revolved around the idea of an animate world. “Before one cut a tree, mined a mountain or dammed a brook, it was important to placate the spirit in charge of that particular situation, and to keep it placated,” White wrote. But Christianity siphoned these spirits out of the Earth and placed them in heaven. “By destroying pagan animism, Christianity made it possible to exploit nature in a mood of indifference to the feelings of natural objects. … The spirits in natural objects, which formerly had protected nature from man, evaporated … and the old inhibitions to the exploitation of nature crumbled.” This led White to describe Christianity as the most “anthropocentric religion the world had seen.”

“Consciousness didn’t emerge or flicker into existence; it has always been there — the intrinsic nature of us and everything around us.”

Christianity didn’t create the ecological crisis, White asserted, but it laid the foundations for an abusive relationship between man and nature. This religious ideology was infused with the Scientific Revolution (of which the key drivers were deeply religious Christians like Galileo, Descartes, Newton and Bacon) and ushered in an age of technology, capitalism and colonialism that thrived on exploiting the Earth. The universe came to be viewed not as organic and animate, but as a mindless machine, like a clock, the gears of which are governed by scientific laws. The wonder and unpredictability of nature was transformed into something stable, predictable, knowable and therefore controllable. Forests were there to be cleared, hills were there to be mined and animals were there to be slaughtered. This became known as the “mechanistic worldview.” As the science historian Carolyn Merchant wrote in a 1980 book: “Because it viewed nature as dead and matter as passive, mechanism could function as a subtle sanction for the exploitation and manipulation of nature and its resources.”

While we might think we are now living in a “post-Christian age,” this deeply entrenched mindset still haunts us. This “relation to nature,” White wrote, is “almost universally held not only by Christians and Neo-Christians but also by those who fondly regard themselves as post-Christians. Despite Copernicus, all the cosmos rotates around our little globe. Despite Darwin, we are not, in our hearts, part of the natural process.” Echoes of this story, Naomi Klein wrote in her 2014 book “This Changes Everything,” reverberate through a “cultural narrative that tells us that humans are ultimately in control of the Earth, and not the other way around. This is the same narrative that assures us that, however bad things get, we are going to be saved at the last minute — whether by the market, by philanthropic billionaires or by technological wizards.”

White’s paper caused shockwaves. Biblical scholars and theologians criticized him heavily, and he received torrents of hate mail accusing him of being the anti-Christ, a Kremlin agent and more. But he was a religious man, with no intention of turning his back on his God. In the final third of the paper, he reminisced on the forgotten panpsychists of Christianity who had implored people to recognize themselves as within nature, not above it. White called for his fellow Christians — roughly a quarter of the world’s population at the time — to look for ways forward in the example of a saint like Francis of Assisi, who spoke to his flowers and envisioned the Earth itself as something divine.


Throughout the 1970s, environmentalists and political activists pored over White’s thesis, and it became a seminal text in universities and ecological studies. But his panpsychist conclusions went largely under the radar. His critique became mainstream, but his call to action, at least in the 1960s, largely failed.

The essence of what White, Marchant and then Klein are getting at is that our mechanistic worldview is not an objectively true portrayal of reality, but something that has been constructed. Therefore, it can be reconstructed. Panpsychism is one possible reconstruction. Our inability to fully comprehend the widespread decline of the natural world could be a consequence of our refusal to see ourselves as part of it. And the potential of panpsychism to put mind back into matter, reconnect us to nature, dispel human exceptionalism and revolutionize our ethics is, for many, a clear way forward.

While analytic philosophers like Goff and Strawson are keen to emphasize that their argument for panpsychism is technical, logical and based on strict theoretical frameworks, the Australian philosopher Freya Mathews has reached similar conclusions via environmental philosophy, which is more concerned with questions about how we live in this world. In 1991, Mathews wrote “The Ecological Self,” a book that essentially described a panpsychist view without using the word — “I didn’t want to shoot myself in the foot by calling it that,” she told me.

She went on: “I don’t think just accepting something like this at a theoretical level would change us. I don’t think that’s how psychology or motivation works. Reason can’t touch motivation; it doesn’t touch our deeper psyche. But if a theory like this gives us permission to experiment experientially with new ways of seeing and exploring the world — and looking for our purpose, as it were — then we might have a chance of discovering it.”

In the 1960s, the physicist and philosopher Thomas Kuhn analyzed what it takes to cause a paradigm shift in our scientific perspective. A paradigm shift is when a dominant theory is suddenly or gradually overturned when significant anomalies that disprove the theory continue to arise until it goes into a state of crisis. During this crisis, Kuhn wrote, we witness “the proliferation of competing articulations, the willingness to try anything, the expression of explicit discontent, the recourse to philosophy and to debate over fundamentals.” An example of a Kuhnian paradigm shift is the sudden change from Newton’s simple physics to Einstein’s far weirder theories, which, among many things, completely upended the understanding of time.

Mathews thinks we are now on the verge of another paradigm shift, whether that is to panpsychism or some other worldview that sees nature as more than unfeeling matter. “Our current worldview is leading to the ecological collapse of the planet,” she said. “And it is completely pragmatically self-defeating to continue with it.”

Margaret Cavendish had a fairly robust set of environmental ethics that was rare in 1600s Europe. At a time when Descartes — who gave his dog the very human name Monsieur Grat (“Mr. Scratch”) — was arguing that animals were machine-like senseless automata that felt neither pain nor pleasure, Cavendish was trying to create a dialogue between man and nature.

In her poems “The Hunting of the Hare” and “The Hunting of the Stag,” she abandoned the human perspective to adopt that of the animal being killed. In another, she imagined a conversation between a man and the tree he is about to cut down. These views and others ostracized her from the 17th-century scientific community, and much of her work was either ignored or dismissed. When she became the first woman to visit the all-male scientific institution of the Royal Society in May 1667, Pepys’ account of her visit focused mostly on the offensiveness of her dress. She was viewed by many as insane and irrational; they labeled her “Mad Madge.”


But none of this dissuaded Cavendish, who, in her lifetime, published numerous books of philosophy, fiction, plays and poetry. “I had rather appear worse in singularity,” she said, “than better in the mode.” And if anyone was being irrational, thought Cavendish, it certainly wasn’t her. “Man is more irrational,” she wrote in 1664, “when he believes that all knowledge is not only confined to one sort of Creatures, but to one part of one particular Creature, as the head, or brain of man.”

Wednesday, June 28, 2023

How does household water insecurity affect children’s health and well-being?


Peer-Reviewed Publication

WILEY




The global burden of disease associated with water insecurity has traditionally focused on diarrheal disease as the most significant driver of infant and child mortality. However, a review in WIREs Water notes that there are many other ways that water insecurity can have adverse health and social consequences for children.

Inadequate or unsafe household water can have a range of health effects in children from infancy to late adolescence. Household water insecurity can spread disease, cause interruptions to growth and development, lead to school absenteeism and interpersonal violence, and contribute to other aspects of children’s mental and physical health.

“Because children's voices are not always included in anti-poverty dialogues, we risk under-appreciating the wide-ranging effects of water poverty on children and missing opportunities to improve their health and well-being,” said corresponding Justin Stoler, PhD, of the University of Miami.

URL upon publication: https://onlinelibrary.wiley.com/doi/10.1002/wat2.1666

 

Additional Information
NOTE: 
The information contained in this release is protected by copyright. Please include journal attribution in all coverage. For more information or to obtain a PDF of any study, please contact: Sara Henning-Stout, newsroom@wiley.com.

About the Journal
The scope of WIREs Water is the interfaces between five very different intellectual themes: the basic science of water, its physics and chemistry, flux, and things that it transfers and transforms; life in water, and the dependence of ecosystems and organisms on water to survive and to thrive; the engineering of water to furnish services and to protect society; the people who live with, experience and manage the water environment; and those interpretations that we, as a society, have brought to water through art, religion, history and which in turn shapes how we come to understand it. These interfaces are not simply designed to be ways of looking at water through what necessarily must be interdisciplinary perspectives. They are also designed to be outward facing in terms of how water can help to understand wider questions concerning our environment and human-environment interactions.

About Wiley
Wiley is one of the world’s largest publishers and a global leader in scientific research and career-connected education. Founded in 1807, Wiley enables discovery, powers education, and shapes workforces. Through its industry-leading content, digital platforms, and knowledge networks, the company delivers on its timeless mission to unlock human potential. Visit us at Wiley.com. Follow us on FacebookTwitterLinkedIn and Instagram.

Sunday, December 10, 2006

1666 The Creation Of The World

The Great Fire of London occurred September 2, 1666, it was the 9/11 of its day. It's impact was not unlike that of 9/11.

Who had done the dastardly deed? Why had it occcured? Speculation and conspiracy theories abounded. Just as have followed in the wake of 9/11.

Great disasters change the social psyche forever. They are not only objective historic events but history impeding into the subjective life of a mass of people.


William Lilly's Prediction of The Fire of London



The Great Fire of London was the biggest single calamity in the history of the city. It had destroyed 13,200 houses, 87 parish churches, 6 chapels, 44 Company Halls, the Royal Exchange, the Custom House, St Paul's Cathedral, the Guildhall, the Bridewell and other City prisons, the Session House, four bridges across the Thames and Fleet rivers, three city gates and made homeless 100,000 people, one sixth of the inhabitants.


Within days the angry citizens wanted someone to blame for the destruction - the Dutch, perhaps, with whom England was at war? Catholic agitators or someone else? Before the authorities settled for a scapegoat in the person of a 26 year old French silversmith, Robert Hubert, who was executed at Tyburn for setting London ablaze, numerous suspects were brought before a special Committee.

There had been a lot of prophecies of the destruction of London by fire. Samuel Pepys, in his diary, noted that Prince Rupert, when told of the fire, recalled Mother Shipton's prophecy of 1641. Nostradamus was also believed to have written about the event.

But some recalled the trial of Colonel John Rathone in April of the same year. Rathbone and a group of former Parliamentarian officers had been arrested and tried for conspiring to overthrow the King and Government and restore the Commonwealth. The London Gazette, reporting the trial, revealed that the plan involved setting fire to London on September 3. The date had been selected by the conspirators as auspicious when they consulted the almanac of William Lilly for that year. It was claimed that this was a horoscope which was interpreted to show the fall of the monarchy. It was also a date close to the hearts of the English republicans, being the anniversaries of two of Cromwell's victories at Dunbar and Worcester. Rathbone and eight fellow officers were found guilty and executed.

Now people recalled the plot, the date, and William Lilly's horoscope. Suspicion fell on him. Had he been involved in the fire simply in order to enhance his reputation as an astrologer? Lilly needed little enhancement to his reputation. This was an age when astrology was a respected science and Lilly was a man of substance and political influence. His portrait was the most widely circulated, through his almanacs, in England, after the picture of Charles himself.

England was in the transition from fuedalism to becoming a parliamentary state ruling over the advent of capitalism. The fire as an alchemical metaphor gave birth to capitalism, phoneix like out of the ashes of the Great City. It was a purification, as 1665 was the year of the Great Plague, the fire destroyed the disease that swept through the Great City.




It was also the years of the Anglo Dutch wars, the first genuine capitalist war all previous wars had been religious ones or those for national territory for Princes, this was a war of the marketplace. Holland had just given birth to the first bourse; the stock exchange, changing forever the economic base of Europe.

The Dutch started joint stock companies, which let shareholders invest in business ventures and get a share of their profits - or losses. In 1602,Dutch East India Company issued the first shares on the the Amsterdam Stock Exchange. It was the first company to issue stocks and bonds.


As sea based merchants with mercenary armies the Dutch and English were in competition for the same colonies.

While in previous ages it was Venice and the Italian mercantilist provinces that dominated trade, by the time of the end of the 80 years war, and the rise of protestantism Holland, Amsterdam in particular became the worlds sea power and the home of capital. It was the first capitalist state. Before the destruction of London which would replace it as the centre of capital and capitalism, within the reconstructed City of London, today known as the financial centre of English capitalism or simply as 'The City'.


ORIGINS OF THE ANGLO-DUTCH WORLD ORDER


Like Venice, the Netherlands was a maritime power. By the 1550s the Dutch merchant marine was the largest in Europe, operating from the Azores to the Baltic to the Levant. The Amsterdam carrying trade increased ten-fold
from 1537 to 1547. In 1550, on any given day, there were 2500 ships in the river Scheldt, off Antwerp, with 500 new ships arriving each day.
A major catalyst for the emergence of Amsterdam as the financial capital was the 1585 capture of Antwerp by the Duke of Parma's army. This engendered the "great exodus" from the southern provinces, where the Calvinists were most numerous. Over 150,000 fled, and both Antwerp and Ghent lost more than half of their populations.
More than 19,000 merchants, including many key bankers and Bourse speculators left Antwerp, with most settling in Amsterdam.
After 1588 Dutch financial and commercial expansion exploded:
1588 - 2,000 Dutch merchant vessels.
1588 - Anglo-Dutch defeat of Spanish Armada
1590-1600 - massive expansion of Dutch seaborne trade
1594 - founding of Dutch "Long Distance Company" (Company of the Far Countries). Beginning of serious trade
with east. First voyage of 4 ships to Asia sent out in 1595
1598 - first marine insurance; Dutch dominated insurance markets into the 18th century
1600 - first Dutch ship reaches Japan
1600-1620 - flourishing Dutch Levant trade.
1600-1635 - undeclared war with Portugal
1601 - chartering of the East India Company (the VOC - Verenigde Oostindische Compagnie), dominated by
Amsterdam. Oldenbarneveldt said: "The great East India Company, with 4 years of hard work public and private, I
have helped establish, in order to inflict damage on the Spanish and Portuguese."
1605 - first Dutch colony in Indonesia, following defeat of Portugal at Molucca
1606 - first Dutch slave ships.
1606 - control over coinage & monetary affairs shifts from provinces to States General "Mint Chamber"
1607 - Dutch destroy a Spanish fleet off Gibraltar
1608 - Opening of the New Bourse building in Amsterdam
1609 - Bank of Amsterdam founded
1609 - Treaty of Antwerp. 12 year truce with Spain, negotiated by Oldenbarnevelt. Venice the first government
to recognize Dutch independence. Oldenbarnevelt's son Van der Myle becomes Ambassador to Venice, at the
request of the Venetian Ambassador in Paris, Antonio Foscarini.
1610-1612 - first Dutch colonies in Brazil
1618 - Venice signs defensive alliance with Netherlands against Hapsburgs
1619 - Founding of Batavia, capital of the Dutch East Indies
1621 - Extermination of the natives of the island of Band by the VOC. Gov-Gen. Jan Pieterszoon gave orders to
kill the entire native population because they refused to give the Dutch a nutmeg monopoly. Slaves brought in to
work Dutch plantations.
1621 - founding of Dutch West Indies Company
-26-
1621-1648 - Continual (primarily naval) war with Spain and Portugal
1624 - founding of New Amsterdam
1625 - Establishment of the Levantine Trading Company
1630 - almost all of the wealthier classes involved in the East India trade, or finance, or both.


The Bank, the Bourse, and the Financial Markets

The New Bourse (exchange) building opened in Amsterdam in 1608, and the Bank of Amsterdam (Wisselbank) was founded the following year in 1609. The Wisselbank was a public bank, modeled on Venice's Banco della Piazza di Rialto. It had a monopoly on all exchange of species, and trade in precious metals. It was a clearinghouse for bills of exchange, but it was NOT a commercial lending bank, except for loans to the government and the VOC.
More advanced usage of bills of exchange than earlier in Venice and Antwerp. Even before independence, the Dutch provinces created a permanent debt market (world's first "consolidated public debt") to finance the war, and in Antwerp, bankers perfected a continuing market in negotiable international bills of exchange. The trading in financial securities, which took place at the Bourse, created the first modern stock exchange, and
by the mid-1600s, the Amsterdam Bourse was described as the "place where the whole world trades." During the 17th century there was a famous boast about the Amsterdam Bourse which was printed on plaques, posters, and medallions:
Ephesus fame was her temple
Tyre her market and port
Babylon her masonry walls
Memphis her pyramids
Rome her empire
All the world praises me
The new bank - the Wisselbank - was "public" in the sense that, like the Venetian creations of the Giovani, and the later Bank of England, it was entirely privately owned but completely merged with the oligarchical institutions of the state. As such, it assumed sovereign powers to the point that it dictated financial policies, and those policies became the Nation's policies. This paradigm was later to be greatly fine-tuned in England. The Bank's directors had ,offices in City hall, and its money was kept in the city vault. It was politically backed by the city's fathers. The security of its holdings established the new "bank money" as the center of the city's securities trading. This, combined with the international trade in hard currency (specie), in which the bank played a major role, made Amsterdam the world's largest international securities market (including VOC company paper and municipal bonds). The most popular of the securities investments was the national debt. If you look at the scope of what was created between 1594 and 1621, in terms of the institutions, the accumulation of capital, and the centralized way that capital could be deployed, this was all obviously Venetian;
but in some ways it went further, in the sheer size and power of the financial/political capabilities involved. One of the Bourse speculators of the time, a Sephardic Jew named Jossef de la Vega, authored a work describing in detail how the Dutch markets could be used to mobilize capital in ways not previously done. This book was translated into English by John Houghton and used by William III's English advisors in financing his wars against Louis XIV.




The advent of bourgoise power, culture and economics was to arise from the ashes as Ashmole and other Grand Architects, rebuilt the city and in the process created Freemasonry and the English Englightenment.


With the great fire of London, in 1666, there came a renewed interest in Masonry, many who had abandoned it flocking to the capital to rebuild the city and especially the Cathedral of St. Paul. Old Lodges were revived, new ones were formed, and an effort was made to renew the old annual, or quarterly, Assemblies, while at the same time Accepted Masons increased both in numbers and in zeal.

The History of Masonry in England from the Fire of London to the Accession of George I.

The year 1666 afforded a singular and awful occasion for the utmost exertion of masonic abilities. The city of London, which had been visited in the preceding year by the plague, to whole ravages, it is computed, above 100,000 of its inhabitants fell a sacrifice[28], had scarcely recovered from the alarm of that dreadful contagion, when a general conflagration reduced the greatest part of the city within the walls to ashes, This dreadful fire broke out on the 2d of September, at the house of a baker in Pudding-lane, a wooden building, pitched on the outside, as were also all the rest of the houses in that narrow lane. The house being filled with faggots and brush-wood, soon added to the rapidity of the flames, which raged with such fury, as to spread four ways at once.

Jonas Moore and Ralph Gatrix, who were appointed surveyors on this occasion to examine the ruins, reported, that the fire over-ran 373 acres within the walls, and burnt 13,000 houses, 89 parish churches, besides chapels, leaving only 11 parishes standing. The Royal Exchange, Custom-house, Guildhall, Blackwell-hall, St. Paul's cathedral, Bridewell, the two compters, fifty-two city companies halls, and three city gates, were all demolished. The damage was computed at 10,000,000 l. sterling[29].

After so sudden and extensive a calamity, it became necessary to adopt some regulations to guard against any such catastrophe in future. It was therefore determined, that in all the new buildings to be erected, stone and brick should be substituted in the room of timber. The King and the Grand Master immediately ordered deputy Wren to draw up the plan of a new city, with broad and regular streets. Dr. Christopher Wren was appointed surveyor general and principle architect for rebuilding the city, the cathedral of St. Paul, and all the parochial churches enacted by parliament, in lieu of those that were destroyed, with other public structures. This gentleman, conceiving the charge too important for a single person, selected Mr. Robert Hook, professor of geometry in Gresham college, to assist him; who was immediately employed in measuring, adjusting, and setting out the grounds of the private streets to the several proprietors. Dr. Wren's model and plan were laid before the king and the house of commons, and the practicability of the whole scheme, without the infringement of property, clearly demonstrated: it unfortunately happened, however, that the greater part of the citizens were absolutely averse to alter their old possessions, and to recede from building their houses again on the old foundations . Many were unwilling to give up their properties into the hands of public trustees, till they should receive an equivalent of more advantage; while others expressed distrust. Every means were tried to convince the citizens, that by removing all the church-yards, gardens &c. to the out-skirts of the city, sufficient room would be given to augment the streets, and properly to dispose of the churches, halls, and other public buildings, to the perfect satisfaction of every proprietor; but the representation of all these improvements had no weight. The citizens chose to have their old city again, under all its disadvantages, rather than a new one, the principles of which they were unwilling to understand, and considered as innovations. Thus an opportunity was lost, of making the new city the most magnificent, as well as the most commodious for health and trade, of any in Europe. The architect, cramped in the execution of his plan, was obliged to abridge his scheme, and exert his utmost labour, skill, and ingenuity, to model the city in the manner in which it has since appeared.


Freemasonry was unique amongst club culture of London, and it overlapped with the existing shift in the guilds from being producer cooperatives to becoming self sustaining corporations. Fremasonry was declasse, and was the source of the scientific revolution of the 17th Century.

Since the occult sciences held hold, astrology, alchemy, etc. ideologically the tapestry of the York Rite and its mystery's, became the central key to the mythology of Freemasonry. Its reality was that in rebuilding the Great City the Scottish artificers who held the York Charter (which is actually a banner) , and the rites of their guild, were raised to an exaulted level as a source for the rites and roots of Freemasonry. It was Ashmole and Company who refashioned London as the World, physically as well as culturally, scientifically and economically.

With the rise of non-operative Freemasonry, scientific discoveries were held in high esteem, as the Lodges functioned as the natural laboritories of discourse between literate tradesmen and aristocratic scientists, members of the Royal Society. Such interactions were frowned upon in proper society, and indeed made Freemasonry unique amongst the English clubs, which were more like gangs, identified with a particular area of the city, trade, or class.

The end of the Catholic power saw the Guilds under their charters move from being co-frateranl orders, to becoming the economic power of Europe and in particular England. The power of the Guilds was shown in the Great Easter Pagents, the York Mystery plays, which were self financed by the surplus profits earned by each guild.

By Ashmole's time the Guilds operative had become something else, they had become shared stock companies of mastercraftsmen. Journeymen and apprenctices were restricted to roles as servants of the master. The master held the tools and the rules and thus shared in the profits while his workers did not.

It is at this historic moment that non-operative freemasonry takes over from the operating guilds of old. The traditions of operative masonry and the guilds related to it now were transformed into either stock companies, or else the beginings of journeymens trades unions.

The Earliest Masonic Document

The language of this Act is sufficiently conclusive, but for accumulation of proofs, I shall proceed to establish the same position by giving a summary of the oldest, and only genuine document extant on the subject of Masonry. This document is a MS. Bib. Reg. 17. A. I. ff. 32, written in a hand that cannot be later than the close of the 13th century, and of which a copy has been published by J. O. Halliwell. It commences with a history of Architecture from the beginning, and of the introduction of the art into England, and then proceeds to give, in rhyme, the Rules of the Craft, conceived in precisely the same business-like spirit as those of a Trades-Union. The preamble is: "Hic incipiunt Constitutiones Artis Geometricae secundum Euclydem."
No Relation of Modern Masons to Mediæval Guilds

All this evidence goes to show that our Freemasons have no relationship, either actual or traditional, with the mediæval guilds bearing the same appellation, a pretence they so zealously maintain. The latter were corporations of real workmen, in which each person, after serving a regular apprenticeship, and, according to the custom still kept up in some counties, producing a trial-piece to prove his competency, was admitted "free" of the Guild, and "accepted" amongst the members of the same. The compotations accompanying the ceremony are in truth the sole point of resemblance between the ancient and the modern Freemasons.

The mediæval guild of Masons, as we have seen, was no more a secret society than were the guilds of Carpenters, Cordwainers or Tailors. Every man indeed belonging to the first-named (and this is the only thing belonging to the Craft, that really carries with it an air of mysterious antiquity) had, upon admission, a mark (or cypher) assigned him, which he was bound to put upon every stone he dressed (a rule still observed) in order to distinguish his work from that of his fellows, against the time when the materials should be examined by the master-mason, who paid him for those approved, but stopped his wages for those spoiled through his fault. Similarly every "Merchant of the Staple" joined with his initials upon his seal, or trade mark, the mark of the staple-town to which he belonged. This latter, thoug much alike in outline, was variously modified so as to indicate each of the fifteen towns in England, Ireland, and Wales, appointed by Edward III. In all mediæval documents relating to building, the name "Freemason" signifies merely the worker in hewn stone, the inferior workman who ran up the body of the wall in rubble or ragstone being called the "Rough-waller." Lastly, a very puzzling question presents itself--if our Freemasons be the legitimate successors in an unbroken line of the ancient lodges and guilds, how came it that all the principles of Gothic architecture were utterly lost within less than a century?


When and where was speculative Masonry “born”? Someone must have been the first Freemason, who was it?

There was activity in English lodges as well. In 1600, the word “Freemason” was used in the
York Roll. In the early 1620’s the term ‘Accepted’ was used to describe some members in the
Account Book of the London Mason's Company. Accounts of another London guild, the Worshipful
Company of Freemasons differentiate between "accepted" and "operative" members.

In his copious diary, Sir Elias Ashmole notes:
1646 Oct. 4H.30pm I was made a Free-Mason at Warrington in Lancashire with Coll. Henry
Mainwaring of Karincham in Cheshire. The names of those that were of the Lodge, Mr Rich:
Penkett Warden. Mr James Collier, Mr Rich Sanchey, Henry Littler, John Ellam, Rich: Ellam,
Hugh Brewer.

It has been determined by scholars that almost all present at this initiation were not operative
stonemasons, (the profession of Rich Ellam or Ellom is not known, however he described
himself a “Freemason” in his will) and thus of the new order of Freemasons. It is very
interesting to note that Colonel Mainwaring was a well known Parliamentarian or
“roundhead”, and that the 29 year old Ashmole was the Royalist Comptroller of Ordnance.


The Great Scientific Englightenment, the English Englightenment; to differentiate it from the humanistic englightenment of the Italian Rennisance two hundred years earlier, was the result of the reconstruction of the World after the Great Fire.


That world was London, and the birthing of British Capitalism. The scientific age began with the rebuilding of London. The impact of science cannot be underestimated as the shift in conciousness after the Great Fire, which had followed the Great Plague and the Cromwellian Revolt and the Great Revolution, led to a protestantism that was open to interpeting the world in a humanistic fashion. One that would give a moral logic for the establishment of capitalism.

The later Industrial Revolution that was so crucial for the creation of modern capitalism, was to be formed at this time as science moved from being simply an understanding of God in the world, to the understanding of Gods Laws. Nature now took the place of God and man the scientist replaced Gods priests, in interpetating the world.

It is within Freemasonry we find the modern Englightenment ideals of Liberty and utilitarianism, as well as the link between the right to private property and individualism.

In fact, to the masons of 18th century Britain, the word ‘liberty’ was understood not in this primitive sense, but precisely in the interpretation given it by the philosopher John Locke in his Two Treatises of Government of 1690.


Locke has been claimed as a Freemason on the basis of a letter of his dated 1696. This is now considered weak evidence, but the important point is that all pious masons of the time firmly believed Locke had been initiated into the Order. He had indeed been made a Fellow of the Royal Society, a hotbed of Freemasonry, in 1668, and his particular friends there were Robert Boyle, a known Freemason, and Isaac Newton, a member of a quasi-masonic society. Freemasonry in the 18th century has sometimes been described as Rousseauian, but first and foremost, it could also be, and was, right into the late 1760s Lockean, as well as essentially republican.

The Two Treatises of Government was the fruit of years of reflection upon the true principles in politics, a reflection resting on Locke’s own observations. Government, Locke held, is a trust; its purpose is the security of the citizen’s person and property; and the subject has the right to withdraw his confidence in the ruler when the latter fails in his task. Government and political power are necessary, but so is the liberty of the citizen; and in a democratic, constitutional monarchy, a type of government is possible in which the people are still free.

Locke wrote that we cannot be obliged to a government to which we have not given some sign of consent (Book II, §.119), and that ‘the end of Law is to preserve and enlarge freedom’ (II, 57). Governments are dissolved when the ‘Legislative, or the Prince, either of them act contrary to their trust’ (II, 221), and ‘Power reverts to the people’, who may then establish a new legislative and executive (II, 222). It is the people who decide when a breach of trust has occurred, for only the man who deputes power can tell when it is abused (II, 240). In the case of dispute ‘the final appeal is to God’, by which Locke specifically meant revolution.

Liberty is the antithesis of tyranny, for ‘As Usurpation is the exercise of Power, which another hath a Right to; so Tyranny is the exercise of Power beyond Right, which no Body can have a Right to. And this is making use of the Power any one has in his hands; not for the good of those, who are under it, but for his own private separate Advantage.’ (II, 199). ‘When any one, or more, shall take upon them to make Laws, whom the People have not appointed so to do, they make Laws without Authority, which the people are not therefore bound to obey; . . .’ (II, 212).

‘The end of Government is the good of Mankind, and which is best for Mankind, that the People should be always expos’d to the boundless will of Tyranny, or that the Rulers should be sometimes liable to be oppos’d, when they grow exorbitant in the use of their Power, and imploy it for the destruction, and not the preservation of the Properties of their People?’ (II, 229). In such a situation, revolution is justified, for ‘When a King has Dethron’d himself, and put himself in a state of War with his People, what shall hinder them from prosecuting him who is no King, as they would any other Man, who has put himself into a state of War with them; . . .’ (II, 239).



Freemasonry allowed not only for social and intellectual interaction but allowed for a scientific understanding of the world clothed in rites, rituals and antiquarian trappings of Qabbala, architecture, lost knowledge, all the mystical ideas so common in this era of Magick, Alchemy and Astrology. The rituals of Freemasonry replaced the religious rites of the Catholic Church which were anathema to the new Puritan England.


And while Formal Freemasonry did not begin until 1717, its existence in England is well documented for at least one hundred years prior. The formalization of it came with the rebuilding of the City of London.

Francis Bacon was among the first to argue that human ingenuity can discover the hidden laws of nature, under the metaphor of solving the encrypted Book of Nature. He was familiar with diplomatic uses of ciphers and presented a novel scheme for encryption; he also read ancient myths as coded messages. Despite the skepticism of his contemporaries, Bacon pointed to new possibilities of decryption both for human texts and the "alphabet of nature." His concept that nature requires interpretation and his inductive use of tables also parallel emergent cryptanalytic methods. The Clue to the Labyrinth: Francis Bacon and the Decryption of Nature by Peter Pesic


Ingenious Pursuits: Building the Scientific Revolution.

Lisa Jardine. xx + 444 pp. Doubleday, 1999.

The birth of modern science in the 17th century has often been presented as a lonely affair. The image of Isaac Newton alone in his alchemical laboratory at Cambridge comes to mind, as do the strange dreams of Descartes's early Olympica, which resulted from his forced meditations in an overheated room in the midst of a military campaign. Ingenious Pursuits attempts to present the other side of the coin. By focusing on areas of cooperative enterprise, such as natural history, cartography and astronomy, Lisa Jardine presents a picture of 17th-century science that stresses the interactions between and joint activities of individuals and groups of researchers in national and international settings. Her goal is to show that such cooperation extends beyond the obvious fact that those in the same field often work together. Indeed, her major points are that the seemingly disparate realms of science and the fine arts are in reality interdependent and that today, as in the 17th century, the boundaries that we draw around these endeavors are in large measure illusory.

Jardine introduces her argument by juxtaposing Dolly, the sheep cloned in 1997 by Ian Wilmot for cystic fibrosis research, and Away from the Flock, Damian Hirst's exhibit of a whole sheep preserved in embalming fluid. Her purpose is to show that our modern stereotype of the humanist as preserver of cultural values in the face of an ever more technological world dehumanized by the sciences is flawed. If anything, it is Hirst rather than Wilmot who calls the traditional humanistic values of Western civilization into question. Having debunked the image of science as a destructive golem that can only be deactivated by the virtuous artist, Jardine then jumps to the heart of her argument—that science and art advance by similar means ("ingenuity, quick-wittedness, lateral thinking and inspired guesswork")—and provides a number of case studies to prove her point.

In the first three chapters, Jardine focuses on a selection of British scientists, illustrators and instrument makers to show the interaction of art and science during the Scientific Revolution. For example, Robert Hooke, the famous experimenter of the early Royal Society, whose many pursuits included being a part-time surveyor and who had wanted as a boy to become a painter, contributed to the rebuilding of St. Paul's Cathedral after the Great Fire of London in 1666. His collaborator in this was, of course, Christopher Wren, the famous mathematician-turned-architect who actually designed and oversaw the construction of the new cathedral. Jardine links Hooke's mathematical interest in the catenary, a curve produced by a hanging chain, to his attempt to determine the forces that would act on the dome of St. Paul's. Jardine is able to unearth a number of interesting facts about these well-known figures that have not made their way into most studies of 17th-century science—showing, for example, that Hooke used old St. Paul's as a site for experiments with barometric pressure at different heights and that Wren hoped to build an innovative telescope into the renovated building. The two men worked together on the London Monument to the Great Fire, a hollow pillar more than 200 feet high in which they planned to mount a telescope for observing stellar parallax.

The Life and Work of Isaac Newton at a Glance


1665-7 Graduates BA.
Returns to Woolsthorpe for the summer of 1665. Is detained there by the outbreak of plague in Cambridge and remains in Woolsthorpe until March 1667, apart from a short stay in Cambridge in spring 1666 which is cut short by a recurrence of the plague. During this period, despite being almost entirely self-taught in mathematics and optics, he establishes the fundamentals of what is now called the calculus (Newton calls it 'the method of series and fluxions'), setting down the basic rules of differentiation and integration in a paper of October 1666, and demonstrates the heterogeneity of white light through its separation by refraction. Nearly blinds himself by conducting optical experiments on his own eyes.
The sight of a falling apple in a Woolsthorpe orchard - or so Newton himself is said to have claimed decades later - focuses his attention on the subject of gravity. Realises that the force required to keep the moon in orbit round the earth (as stated by Kepler in his Third Law) is of the same kind as that operating in terrestrial gravity. However, Newton's theory of universal gravitation is not fully worked out for another twenty years.
1665 Great Plague. Publication of Robert Hooke's Micrographia and of the (posthumous) complete works of Joseph Mede (dated 1664, i.e. early 1665), whom Newton later acknowledges as the greatest influence on his interpretation of Biblical prophecy.
1666 Great Fire of London. Publication of Boyle's Origin of Formes and Qualities.
1665-7 Second Anglo-Dutch W

Freemasonry in England Around 1717

Let us make an imaginary journey back in time to the London of 1717. That was a city without sewers, the streets filled with dung from the thousands of horses and wet with sewage thrown out of the window. The houses were black with the soot blowing out of numberless chimneys. Some children died asphyxiated while being used as live chimney brushes. It was dangerous to walk about in the streets after dark (some street lamps were installed beginning in 1677, but public lighting with gas, started only in 1786). Criminality was rampant, punishment brutal, prison for debts was common.

Witchcraft was still believed. The Scottish teenager Patrick Morton was allegedly bewitched in 1704.1 The last execution for witchcraft in England took place in 1712.

The industrial revolution had not started yet – that would come in the course of the 18th and 19th centuries – but a class of have-nots already existed, homeless, beggars, criminals of every kind.

This brings us to the marked class differences. The aristocracy and the land owners, generally the same, whose wealth was based on the land, were on top. Below them came the bourgeoisie, merchants, lawyers, doctors, educators, shippers, men of arms. All these constituted a small minority. And then the vast mass, those who would eventually be called the proletariat. There were no factories as yet, but numerous workshops, craftsmen of many trades, and many, many servants, butlers, footmen, cooks, housemaids, porters, gardeners, and farm workers, shepherds, fishermen, all of them completely separated form the upper classes by their lack of education, the language, the customs, with no possibility to move up the social scale.

This was also the time when the increase of wealth in the upper classes led to the beginnings of what would later be called the "consumer society."2 There was a parliament, and there were elections, but the vast majority of Englishmen had no right to vote, that would take another hundred years to become true for the men, and two centuries for the women (only in 1918). Common law allowed marriage at fourteen for boys and at twelve for girls. Only in 1929 legislation was introduced for the first time, prohibiting marriages under the age of sixteen.3

The Christian religion, which had dominated the life of the people during the Middle Ages, codifying to the least detail the way of life, the practice of trades, the separation of classes, was only now recovering from the sanguinary wars caused by its internal divisions. The various reformers, though rejecting the dominion of Rome, were different, but no more liberal.

Inside this stratified society, voices began to be heard proposing changes, making appeal to reason instead of subservience to dogma; these thinkers regarded society as a living organism, they were aware of its defects and wanted to find solutions to improve it.

Science and philosophy, which were then almost indistinguishable, were the tools in the hands of the intellectuals to implement their aspirations. The Rosicrucian manifests, published a century earlier (1613-1615) had made a strong impact on European intelligentsia, announcing the political and social revolution to come. In 1690 John Locke published his Essay Concerning Human Understanding, maintaining that all our knowledge is derived from what we receive through the senses, that our will is determined by our mind, guided by the desire for happiness, and defending the possibility to study the world rationally, without being shackled by dogmas or preconceived ideas.

This was the "Age of Reason." Rationalism and science would open the way to make a perfect society. The 17th century had marked a turning point in the interests of scholars, who now began to focus their attention on the natural sciences and started researching nature, making experiments in all its areas. Astrology gradually gave way to astronomy, alchemy to chemistry; the study of anatomy and physiology revolutionized medicine, for long the province of barbers and quack doctors. New fields of study opened every day.

This is reflected in the creation of numerous scientific academies which joined the literary and philosophical ones, such as the French Academy, founded in 1635.

Already in 1621, Cósimo de Médici established in Florence the Platonic Academy, while in Rome the Academia dei Lincei, dedicated to scientific research, especially astronomy, was founded in 1603; one of its members was Galileo Galilei. And in 1607 Florence saw the creation of the Academia del Cimento, likewise destined to serve as forum for experimenters. Later, in 1666, the Royal Academy of Sciences was created in Paris, and four years before that, in 1662, the Royal Society had started operating in London, providing a platform for researchers and scholars. Some of the most prominent founders of the premier Grand Lodge were active in it.

The Society of Antiquaries, which had been organized originally in 1572 by Archbishop Parker, and had been disbanded in the reign of James I, was revived in 1717 owing to the efforts of William Stukeley, a prominent Mason. The Society received a charter in 1751.4

We must remember, however, that sciences were in their early stages of development. Robert Boyle died in 1691, Leibnitz in 1716 and Newton in 1727, but Priestly was born only in 1733, Cavendish in 1731 and Faraday seventy years later. Lavoisier was born in 1743 and Alexander Humboldt even later, in 1769.

England still used the Julian calendar dating from the time of Julius Caesar. The Gregorian calendar established by Pope Gregory XIII was adopted only in 1752, almost 200 years after being established by Pope Gregory XIII.

European thought was strongly influenced by esoteric thinking, the Rosicrucians, the Cabbala, alchemy and tarot. Hebrew was highly regarded, as the sacred language of the Bible, and also as the language spoken by G-d when addressing man. Some scholars believed that all other languages were derived from Hebrew.

In 1684, Knorr von Rosenroth published Kabbalah Denudata (Kabbalah Unveiled), a translation of passages from the Zohar and essays on the meaning of Kabbalah (including portions of Cordovero's Pardes Rimonim) examined from a Christian point of view. Rosenroth's work was the most important non-Hebrew reference book on the Kabbalah until the end of the 19th century and it became the major source of this subject for non-Jewish scholars.

The study of nature was still based on the treatises of the Greek philosophers, which began to be translated. The evolution to more scientific studies was driven by the development of technology and the changes in the economic structure of the country. The beginnings of the industrial revolution are linked with the mechanization of the textile industry. For centuries, spinners and weavers worked together at home. Four spinners were required to keep a weaver supplied with cotton yarn, and ten spinners were required to keep a wool weaver busy. In 1733 John Kay patented his "flying shuttle" and suddenly the productivity of each weaver was multiplied several-fold, creating unprecedented demand for more yarn. The first spinning machine was invented as early as in 1738, but it was unsuccessful. In 1764 Hargreaves patented his "spinning jenny" (named, according to legend, for his daughter), a machine based on the spinning wheel but with several spindles working in unison; the machine, however, was slow and inefficient. Only in 1769 Arkwright built his roller-spinning machine (the "water frame") and the first industrial spinning mill was established, using horses for power, and in 1779 Samuel Crompton patented his "spinning mule," combining the principles of the water frame and the spinning jenny, a ten-yard long machine with hundreds of spindles working simultaneously. These machines, with some improvements, were in use until the middle of the 20th century.

In 1712 Thomas Newcomen patented the atmospheric steam engine, designed to pump water from the mines. James Watt, the inventor of the double-action steam engine, was born in 1736, when the Grand Lodge of London and Westminster (its original name) was less than 20 years old.

As we an see, the principal discoveries and inventions of science and technology were unknown in 1717, and only in the course of that century and the next were the developments made which set the foundation for modern science. Explorers, too, were still operating in full force. Easter Island was discovered only in 1722, by Dutch seamen. Africa was largely unexplored.



The very act of reconstruction of the city meant that funding was required, and thus the interests of Amsterdam investors were piqued. Not only did England lose its war with the Dutch, it lost political as well as economic power to them. The result was the invasion of England as the last bricks wer put in place in the remade City of London, by William of Orange, a protestant and sympathetic to Freemasonry which flourished under him in England and Holland.

As the Dutch merchants sat fat on the wealth of Europe and their colonial trade, the English with renewed endeavour, a new city and a new fleet, under the direction of William of Orange replaced Holland as the new Atlantic power.


Ironically it was the House of Orange that led to Englands rise as capitalist sea power, while their power at home declined.

The Duke of York was next in line to be the King of England. In 1677, Prince William of Orange married princess Mary of York. When the Duke of York suddenly died, Prince William of Orange and Mary became the next King and Queen of England in 1689.

Then, King William persuaded the British Treasury to borrow one and a quarter million british pounds from the Dutch bankers who had placed him in power. The terms of the loan were as follows:

1. The names of the lenders be kept secret and that they be granted a charter to establish a bank of England.

2. The directors of said bank be granted the legal right to establish the gold standard for paper currency.

3. That they be allowed to lend out 10 pounds of paper currency for every 1 pound of gold held on deposit.

4. That they be allowed to consolidate the national debt and secure amounts due as principal and interest by a direct taxation of the people.

This form of "fractional banking" would allow 50% yearly return on actual bank assets at an interest rate of 5% per year. And the people of England would pay the bill!

These lenders never intended that the loans be repaid for they profited mainly from the interest and the indebtedness gave them political leverage. England's national debt went from 1,250,000 Pounds in 1694 to 16,000,000 Pounds in 1698.



All of which went primarily to rebuilding the City of London. In fact the city became the hub of its own stock exchange, the Bank of England and of course smack in the centre of this was the Freemasons Hall, the Temple.

If the power of mercantile capital, mecenaries and the new stock exchanges financed England and the Great City's rebirth it was thanks to the age old tradition of primitive accumulation of capital. Piracy. The Venetians had practiced it successfully as had the Dutch. And now the English. In fact it is this primitive accumulation of capital through merchants, their banks and their financing of piracy, plunder and colonialism, that reveals the historical birthpangs of capitalism.


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1655 William Patterson (born c. 1655 in Scotland) was behind the establishment of the Bank of England. It is strongly believed that he was a trader in New York in 1668-69 and that prior to this he had worked with the pirate Morgan, who operated in the New Netherlands area.
After founding the Bank of England Patterson went on to form the first company to try and build the Panama canel, resulting in the bankruptcy of its wealthy Scots investors and the collapse of nascent capitalism in Scotland.

Scotland was bankrupt. And boy, did England know it.

Westminster seized the opportunity to bail out the destitute Scots and by 1707 the grateful Scottish Parliament had been sold, and the Scottish people sold out in the thinnest disguised merger of "equals" in the history of takeovers, otherwise known as the Union of the Parliaments.


This failure was nothing compared to what came next
. The case of the South Sea Company in 1720 and its collapse, the first actual capitalist crisis in history.

"I can calculate the movement of the stars, but NOT the madness of men."
— Sir
Isaac Newton, after losing a fortune (£20,000) in the bubble.


The capitalism of the City of London was based on the Dutch model, not only the creation of a national bank, a stock exhcange and joint stock companies but the exploitation of the New World and the economics of slavery.

The South Sea Company - Wikipedia, the free encyclopedia


The company, formed in 1711 by Robert Harley, was granted exclusive trading rights in Spanish South America. The trading rights were pre-supposed on the successful conclusion of the War of the Spanish Succession, which did not end until 1713, and the actual granted treaty rights were not as comprehensive as Harley had originally hoped.

In return for these exclusive trading rights the government saw an opportunity for a profitable tradeoff. The government and the company convinced the holders of around £10 million of short-term government debt to exchange it with a new issue of stock in the company. To further spice up the transaction, the savvy dealers underwriting this transaction placed a perpetual annuity from the government paying 576,534 pounds annually on the company's books, or if you will, a perpetual loan of £10 million paying 6% to the company from the government. This guaranteed the new equity owners a steady stream of earnings to this new venture.

The company did not undertake a trading voyage to South America until 1717 and made little actual profit. Furthermore, when ties between Spain and Britainpublic debt. deteriorated in 1718 the short-term prospects of the company were very poor. Nonetheless, the company continued to argue that its longer-term future would be extremely profitable. In 1717 the company took on a further £2 million of



The New World was being populated by the displaced farmers and artisans who had been forced into London due to the expropriation of their common lands by landlords under the encroachment acts. It is this agrarian revolution that is the basis of later capitalist development that is unique to England.

This displaced class became the first wave of the modern proletariat so essential for creation of capitalism out of the industrial revolution. Along with seeding the New World colonies with this proletarian horde the capitalist merchants traded in slaves returning with goods.


While most commentary on the South Sea Company focuses on the money lost by wealthy English investors, it is often forgotten that the primary trading business of the company was abducting people from West Africa to the Americas and then selling them into slavery. In fact, the most important aspect of the company's monopoly trading rights to the Spanish empire was the 1713 Treaty of Utrecht's slave trading 'Asiento' which granted the exclusive right to sell abducted African people into slavery in all of Spain's American colonies.

The Asiento set a quota of abducting 4800 people a year into slavery. Despite its problems with speculation, the South Sea Company was relatively successful in this task (it was unusual for other, similarly chartered companies to fulfill their quotas). According to records compiled by David Eltis et al, during the course of 96 voyages in twenty-five years, 34,000 people were abducted of whom 30,000 survived the voyages across the Atlantic. Therefore, 4,000 people died during their abduction by the South Sea Company.

The mortality rate of about 15 percent was not unusual and indicates that the organization was not only strongly interested, but also relatively competent as a slave trader. Employees, directors and investors overcame major obstacles in order to pursue the slave trade, including two wars with Spain and the 1720 bubble. Indeed, the company's most successful slave trading year was in 1725, five years after the bubble burst.


The creation of the City of London, the birth of Freemasonry, Englands rise as the dominant sea power and banking power in Europe, the birth of modern capitalism and the proletariat, all begin with the rebuilding of City after the Great Fire. It was a disaster that cleansed the city of the plague and gave birth to the New World that Sir Francis Bacon had predicted a century earlier.

Within a short span, fifty years, London had gone from a burnt out shell to the veritable City of Capitalism. England was the first modern capitalist political economy.

The Phoenix of alchemy is not only a historically apt metaphor for the rebirth of the City of London but for the creative destructive logic of capitalism that the City gave birth to.


The Phoenix completes this process of soul development. The Phoenix bird builds its nest which at the same time is its funeral pyre, and then setting it alight cremates itself. But it arises anew from the ashes transformed. Here we have captured the alchemists experience of spiritualisation, He has integrated his being so much, that he is no longer dependent upon his physical body as a foundation for his being. He now stands upon the sureness of the spiritual - he has in this sense attained the Philosopher's Stone, the Spiritual core of his being.
Thus we can sketch shortly the process of Soul alchemy, the integration, purification and transmutation of the soul, as pictured in this series of bird symbols.


See:

LOOKING BACKWARDS
The Fraternal Origins of Working Class Organizations In the Transition from Feudalism to Capitalism

Tyrant Time Tempus Fug'it

American Fairy Tale

Freemasons

Happy Rabbie Burns Day

Enlightenment

London


Prmitive Accumulation

Capitalism


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