I am currently reading The Truth about Contagion by Cowan and Fallon Morell and can definitely recommend it.
Here I’m going to focus on two chapters, one on Electricity and Disease and the other on Resonance.
For my money, Cowan and others have done an excellent job of making the case, with evidence, that the “virus” that virology has nailed itself to, is not what everyone thinks it is. There is plenty of good evidence to say, “it doesn’t exist” or more to the point “you haven’t proven its existence”. The burden of proof is on Virology. I am finding my peace with this proposition.
But now our problems start.
Does “no virus” mean “no transmission” or “no contagion”. Personally, I don’t think so. Not yet anyway.
What I like about Cowan in this book is that he isn’t absolute about “not being able to infect each other”. In fact, Chapter 7 which I tackle below focuses specifically on “measles parties”. He doesn’t dismiss or marginalize the phenomenon and is open to forms of “communication” that he doesn’t understand. That’s the hallmark of a truth seeker. It’s a fantastic chapter about Resonance.
If we accept what Levy tells us, that all disease is oxidative stress, and oxidative stress is all about electrons. How could there NOT be a connection between electricity and disease?
Personally, I remain open to JJ Couey’s thesis about “infectious clones” as a means of “starting the fire” although there are people, I respect a lot on the other side that say that it’s an unproven thesis.
But I am now more open than ever to the idea that symptomatic disease can be created by Empire using EMF. It seems clear to me that Empire has the means, and certainly the motivation, to create geographically targeted flu like symptoms, that would immediately appear to be “transmitted” from person to person.
The reason they love the “lab leak” story, is because it houses two critically important paradigms.
First, it houses the “virus” paradigm, as the sole “risk” and means of “infection”.
Secondly, it houses the “unintentional accident” paradigm. “Leak”, what a great word.
Both paradigms are false, but critical to their trillion dollars plus Pandemic Preparedness Industrial Complex.
Next, are the key points of focus for chapter 2 and 7.
Electricity and Disease – Chapter 2
Historical use of electricity in medicine: In the past, electricity was utilized in medicine not by technicians but by physicians and healers. They employed electric currents and static electricity to treat various ailments, ranging from deafness to paralysis. This was based on the newly discovered phenomena of electric currents, using devices like Leyden jars1, which sometimes caused harm or even fatalities.
Difference in electrical sensitivity among individuals: Early electrical experimenters, including notable figures like Alexander von Humboldt, observed that people displayed a wide range of sensitivities to electricity. This variance was as pronounced as the difference between the phenomena of living matter and those of inanimate material, suggesting a complex interaction between biological organisms and electrical stimuli.
Connection between electricity and human health: Researchers began to link electricity with health effects when they noticed that electric currents ran through the bodies of humans and animals, and even plants were sensitive to electrical phenomena. This was further supported by observations that certain health symptoms in people correlated with electrical disturbances in the environment.
Electricity and symptoms after the 1749 earthquake: After the London earthquake of 1749, British physician William Stukeley2 noted that the symptoms experienced by residents, such as pains in joints and headaches, resembled those caused by electrification. This led to the hypothesis that electricity could play a role in such health phenomena.
Heinrich Schweich's theory on influenza: Schweich proposed that physiological processes produce electricity and theorized that electrical disturbances in the atmosphere could prevent the body from properly discharging it. He suggested that the accumulation of electricity in the body could cause influenza symptoms, indicating an early understanding of environmental factors in disease.
Sun's electrical nature and influenza: During periods like the Maunder Minimum3, a correlation was noted between the lack of sunspot activity, the appearance of the northern lights, and influenza outbreaks. This led to the hypothesis that solar electrical activity could influence health on Earth, especially during periods of increased sunspot activity.
Telegraph lines and neurasthenia: The installation of telegraph lines was observed to coincide with the emergence of neurasthenia, a condition marked by exhaustion and other symptoms similar to those of chronic fatigue syndrome. This was one of the first instances suggesting a link between electromagnetic technology and specific health conditions.
Electricity's role in the 1889 flu pandemic: Arthur Firstenberg suggests that the advent of the modern electrical era was accompanied by a deadly flu pandemic. He posits that the spread of electricity could have fundamentally altered the atmosphere, contributing to the unpredictably explosive nature of influenza outbreaks.
Firstenberg and Electricity
Arthur Firstenberg's work, as discussed in the book, provides a comprehensive examination of the history and impact of electricity on human health and the environment, culminating in a critical analysis of modern wireless technologies, including 5G. His book, "The Invisible Rainbow," is cited as a source for understanding the correlation between the proliferation of electrical technology and various health epidemics, including the Spanish flu of 1918 and more recent concerns around COVID-19.
Firstenberg posits that the advent and expansion of electrical infrastructure and technology have coincided with significant outbreaks of illness throughout history. He begins with the installation of the telegraph system in the 19th century, which he links to the spread of neurasthenia, a condition characterized by a constellation of symptoms including fatigue, anxiety, and depression. This pattern of technological advancement followed by disease outbreaks is a recurring theme in his work, suggesting a causal relationship between the two.
The narrative extends into the 20th century, highlighting the 1918 Spanish flu pandemic's synchronicity with the widespread use of radio transmitters, suggesting that electromagnetic radiation from these devices may have played a role in the pandemic's severity and spread. Firstenberg also discusses the correlation between radar installations, the introduction of satellites, and subsequent flu pandemics in 1957 and 1968, proposing that these technologies disturbed the Earth's electromagnetic environment and, by extension, human health.
A significant focus of Firstenberg's argument is on the potential health implications of modern wireless technologies, especially 5G. He raises concerns about the non-ionizing radiation emitted by 5G technology, suggesting it could have profound effects on the human body, including alterations in cell membrane permeability, impacts on oxygen absorption, and overall increases in susceptibility to illness. Firstenberg's critique extends to the rapid global rollout of 5G, correlating it with the emergence and spread of COVID-19.
In addition to exploring the historical and potential health impacts of electromagnetic technology, Firstenberg discusses societal responses to these health crises, including the Spanish flu and COVID-19. He critiques the measures taken to contain these outbreaks, suggesting that they fail to address the underlying cause he identifies: the pervasive influence of electromagnetic fields on human health.
Challenges in understanding the Spanish flu transmission: The Spanish flu of 1918 presented a significant challenge to contemporary understandings of disease transmission. Despite attempts to prove its contagiousness through direct transfer of bodily fluids or close contact, researchers were unable to replicate the disease in healthy volunteers, suggesting a misunderstanding of its transmission mechanism.
Experiments to understand Spanish flu spread: Researchers, including those led by Milton J. Rosenau, conducted experiments attempting to infect healthy individuals with material from flu patients, but none became sick. These experiments highlighted the difficulties in understanding flu transmission and suggested that factors other than direct contagion might be at play.
Rosenau and the Spanish Flu
Rosenau's investigations into the Spanish flu, as detailed in the book, represent a significant effort to understand the transmission mechanisms of the 1918 influenza pandemic, which devastated populations worldwide. Milton J. Rosenau, MD, along with his team from the US Public Health Service, embarked on a series of experiments to determine how the Spanish flu was transmitted among people. These experiments were conducted against the backdrop of a pandemic that afflicted a third of the world's population and resulted in approximately fifty million deaths, surpassing the fatalities of the Black Death in the 14th century.
The core of Rosenau's experiments was to challenge the prevailing assumptions about the contagious nature of the Spanish flu. His team attempted to infect healthy volunteers with the virus by exposing them directly to the bodily fluids of infected individuals. This involved carefully collecting throat and nasal mucus, and even lung material from deceased patients, and introducing these samples to the healthy volunteers' respiratory tracts. Despite using what Rosenau described as "billions" of the Pfeiffer bacillus (believed at the time to be the cause of the flu), none of the volunteers fell ill.
In a further attempt to mimic the natural transmission of the flu, Rosenau's team instructed sick patients to breathe and cough directly over the volunteers. In a controlled setting, the volunteers and patients were placed in close proximity, even to the extent of sharing breaths in a face-to-face manner. This intimate exposure aimed to replicate the conditions under which the flu was thought to spread from person to person. Yet, despite these deliberate attempts to infect the volunteers through what was believed to be the natural route of transmission, none of the subjects contracted the flu.
Rosenau's experiments were meticulous and thorough, seeking to replicate the conditions of human contact and direct transmission of the virus. The outcome of these experiments was perplexing to the researchers: despite their efforts to transmit the flu using methods that should have facilitated infection, the healthy volunteers remained unaffected. This led Rosenau to express a sense of frustration and to speculate about unknown factors or mechanisms in the transmission of influenza. He concluded that there might be elements of influenza transmission that were not understood at the time, underscoring the complexity of the disease and challenging the straightforward assumptions about its contagious nature.
These investigations by Rosenau and his team highlight the enigmatic aspects of the Spanish flu's spread and the limitations of contemporary scientific understanding of infectious diseases.
Correlation between radar, satellites, and flu pandemics: The installation of radar systems and the launch of satellites were observed to coincide with flu pandemics in 1957 and 1968. The book suggests that disturbances in the Earth's electrical environment, caused by these technologies, could affect human health.
"Dirty" electricity and its effects: Dirty electricity refers to electrical pollution characterized by a mix of frequencies and abrupt changes in voltage and frequency. It's suggested to adversely affect human health by disrupting the body's natural electrical systems, contributing to a variety of health issues.
Significance of Schumann resonances: The Schumann resonances are a set of spectrum peaks in the extremely low frequency portion of the Earth's electromagnetic field spectrum. The book suggests that humans are naturally tuned to these frequencies, and disruptions or alterations can adversely affect health.
Schumann Resonance
The book touches on the Schumann resonances and their significance in relation to human health, as explored through the lens of Arthur Firstenberg's work and the broader context of electricity's impact on biological systems. The Schumann resonances are a set of spectrum peaks in the extremely low frequency (ELF) portion of the Earth's electromagnetic field spectrum. These resonances are global electromagnetic resonances, generated and excited by lightning discharges in the cavity formed by the Earth's surface and the ionosphere, acting as a waveguide.
Firstenberg posits that human health is intricately connected to the natural electromagnetic environment, including the Schumann resonances, which are thought to play a critical role in regulating life on Earth. He suggests that these natural frequencies are foundational to the proper functioning of human physiology. The Schumann resonances, with a fundamental frequency of approximately 7.83 Hz, are particularly highlighted for their potential synchronicity with human brainwave patterns, implying that they may influence biological processes such as sleep, circadian rhythms, and neurological health.
The discussion raises concerns about the disruption of these natural resonances by man-made sources of electromagnetic fields (EMFs), such as power lines, wireless technologies, and particularly the newer 5G networks. Firstenberg theorizes that such disruptions could lead to a wide array of health issues, including disturbances in sleep patterns, neurological disorders, and other health problems, by interfering with the body's natural electromagnetic harmony.
Moreover, the book implies that the increasing pervasiveness of "dirty" electricity and wireless signals contributes to a form of environmental pollution that could be undermining human health on a global scale. This perspective suggests that the delicate balance of the Earth's electromagnetic environment, including the Schumann resonances, is crucial for life, and that humanity's technological advancements are inadvertently destabilizing this balance.
Traditional Chinese medicine and electrical nature: Traditional Chinese medicine (TCM) has long recognized the body's electrical nature, using practices like acupuncture to manage the "accumulation of electricity" that leads to disease. This acknowledges the body's bioelectrical systems and their role in health.
Health impacts following cell phone service onset: The introduction of cell phone service was associated with increased mortality rates in major cities, suggesting that wireless signals could have adverse health effects. This indicates the potential biological impact of electromagnetic fields from wireless technology.
Differences and concerns of 5G technology: 5G technology utilizes higher frequencies and is characterized by its ability to support a large number of connections simultaneously. Concerns include its potential to cause health issues due to non-ionizing radiation effects, such as altered cell permeability and potential oxygen absorption issues.
5G rollout and COVID-19 spread: The book draws a connection between the rollout of 5G technology and the occurrence of COVID-19 cases, suggesting that electromagnetic field disturbances from 5G could influence the spread or severity of the disease, though this is a controversial and not widely accepted view.
Bartomeu Payeras i Cifre
Bartomeu Payeras i Cifre, as mentioned in the book, is a Spanish epidemiologist who conducted research on the correlation between the rollout of 5G technology and the incidence of COVID-19 infections. His analysis charted the deployment of 5G networks in European cities and countries, aligning this data with the rates of coronavirus infections per thousand people. Through this research, Cifre aimed to demonstrate a clear and close relationship between the rate of coronavirus infections and the locations of 5G antenna installations.
Cifre's findings are presented as part of a broader argument that the emergence and spread of COVID-19 cases may be linked to the presence and activation of 5G technology. This hypothesis is rooted in the concern that 5G's electromagnetic fields could have adverse health impacts, potentially exacerbating or even causing symptoms similar to those associated with COVID-19.
Impact of EMFs on the immune system and tissue repair: The book suggests that electromagnetic fields can disturb immune function and tissue repair processes, leading to various health issues. This includes stimulation of allergic and inflammatory responses, which could compound the effects of other environmental stressors on health.
Insurance companies and EMF-related injuries: The refusal of insurance companies to cover injuries related to electromagnetic fields, treating them as pollutants, highlights the perceived risks associated with EMF exposure. This stance suggests a recognition of potential health impacts, despite ongoing debates about EMF safety.
5G technology and oxygen absorption: The book raises concerns about specific 5G frequencies, particularly 60 GHz, which is absorbed by oxygen. It's suggested that this absorption could affect oxygen's availability for respiration, though this claim is speculative and not supported by mainstream scientific evidence.
Resonance - Chapter 7
Modern understanding of disease causation vs. Koch's postulates: The book implies that the current understanding of disease causation has evolved beyond Koch's postulates, which were a set of criteria used to link microbes to diseases. This evolution reflects a deeper understanding of the complex interactions between pathogens, hosts, and environmental factors, acknowledging that not all pathogens cause disease in every individual and that diseases can arise from non-microbial sources.
Role of viruses in disease: Contrary to traditional views that portray viruses as purely pathogenic, the book suggests that exosomes (not “viruses”) may play a more nuanced role in health and disease. It introduces the idea that exosomes, could be part of the body's response to environmental stressors, facilitating adaptation rather than causing disease in a straightforward manner.
Experiments of Luc Montagnier: Montagnier's experiments, as described in the book, challenge conventional views by suggesting that DNA or RNA sequences can be transmitted or recreated between separate water samples through electromagnetic signals. This finding could revolutionize our understanding of genetic material transmission and disease spread, emphasizing energetic and informational aspects rather than direct physical contact.
Luc Montagnier
The book references experiments conducted by Luc Montagnier, a Nobel Prize-winning virologist, which are groundbreaking in the context of understanding the nature of genetic material. Montagnier's experiments delved into the electromagnetic properties of DNA and RNA, suggesting that these molecules can influence and interact with their surroundings in previously unrecognized ways.
In one of the experiments described, Montagnier and his team placed DNA in one beaker of water and a separate beaker containing pure water in another part of the room. After introducing an energy source such as UV or infrared light to the first beaker, the exact sequence of DNA purportedly formed in the second beaker of pure water, despite there being no physical connection between the two. This phenomenon suggested that the DNA sequence was somehow transmitted or replicated through electromagnetic signals, challenging conventional understandings of how genetic information is shared and transferred.
These findings imply that DNA and RNA can emit electromagnetic signals that carry their genetic information, which can then be received and replicated by DNA in nearby organisms or mediums. The implications of Montagnier's experiments extend to the understanding of transmission, suggesting a mechanism beyond direct contact or conventional contagion. This perspective opens up novel considerations for how diseases, particularly “viral” illnesses, might spread and how bodies respond to environmental stressors at a molecular level.
Montagnier's work, as discussed, points to a more complex interaction between living organisms and their electromagnetic environment, suggesting that the resonance of genetic material could play a role in health and disease in ways not yet fully understood by mainstream science.
Significance of resonance in disease spread: The concept of resonance, as discussed, suggests that diseases could spread not through conventional contagion but through energetic patterns that resonate between individuals. This perspective could explain the spread of certain diseases without direct contact, proposing a more complex interaction between organisms and their environment.
Reinterpretation of contagious nature of diseases: By applying the concept of resonance, the book reinterprets the contagious nature of diseases like measles and chickenpox. It suggests that these diseases may spread through shared energetic frequencies rather than direct viral transmission, proposing a collective response to environmental triggers.
Role of exosomes in environmental adaptation: The book posits that exosomes, which are vesicles released by cells, play a crucial role in the body's adaptation to environmental changes. They are suggested to carry genetic information that can facilitate rapid adaptation across populations, challenging the traditional view of slow genetic changes through natural selection.
Human and animal adaptation to new environmental challenges: According to the book, adaptation to new environmental challenges occurs not through the slow process of genetic mutation and natural selection but through the rapid, resonant spread of genetic information via exosomes. This mechanism allows for immediate responses to environmental stressors, facilitating survival in changing conditions.
Critique of natural selection theory: The book critiques the theory of natural selection for its inability to explain rapid adaptations to environmental changes. It suggests that traditional mechanisms of evolution are too slow to account for the rapid changes observed in response to new challenges, advocating for a reconsideration of how adaptation occurs.
Wave-particle duality: Drawing on the principle of wave-particle duality from physics, the book suggests that understanding all physical entities requires acknowledging their existence as both particles and waves. This perspective could offer new insights into the interactions of biological systems and what influences health and disease.
Implications of resonant DNA/RNA properties: The resonant properties of DNA and RNA, as discussed, have profound implications for understanding health and disease. They suggest that genetic information could be transmitted or influenced by electromagnetic fields, potentially opening new avenues for understanding disease transmission, genetic expression, and the body's adaptive responses to environmental stressors.
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Leyden jars are early electrical devices used to store and discharge high-voltage electric charge, functioning essentially as capacitors. Invented in the mid-18th century by Pieter van Musschenbroek in Leiden, Netherlands, these devices played a crucial role in early experiments with electricity. A Leyden jar consists of a glass jar partially filled with water or lined inside and out with metal foil. The inner and outer surfaces of the jar serve as the capacitor's plates, and the glass acts as the dielectric material (an insulator that can be polarized by an electric field).
To charge a Leyden jar, an electrical connection is made to the inner foil, typically using a metal rod that extends out of the jar's opening, while the outer foil is connected to ground. When a high-voltage power source, such as a static electricity generator, is applied, electric charge accumulates on the inner and outer foils, creating a significant potential difference (voltage) across the glass dielectric.
Leyden jars were used in numerous scientific investigations into the nature of electricity, including studies on electrical conductivity, atmospheric electricity, and the physiological effects of electrical shocks. These devices were a cornerstone in the development of electrical theory and technology, allowing early experimenters to perform a wide range of electrical experiments long before the invention of modern capacitors.
William Stukeley (1687–1765) was an English antiquarian, physician, and clergyman known for his pioneering work in the field of archaeology, particularly his studies of the prehistoric monuments of Stonehenge and Avebury. He was one of the first to investigate these sites systematically, and his detailed drawings and observations contributed significantly to the study of these ancient structures.
Stukeley's interest in antiquities was broad, encompassing not only prehistoric monuments but also Roman ruins. He was a contemporary of Isaac Newton and shared a keen interest in the natural sciences, which influenced his archaeological and theological work. Stukeley is often credited with helping to develop the field of archaeology as a scientific discipline, moving away from mere treasure hunting to a more systematic study of ancient cultures and their artefacts.
In addition to his archaeological pursuits, Stukeley practiced medicine, having studied at Cambridge and London before becoming a physician in Boston, Lincolnshire, and later in London. His medical practice was quite successful, and it allowed him to finance his archaeological interests.
Stukeley was also deeply involved in the intellectual and religious debates of his time. He was a devout Christian and tried to reconcile biblical history with the archaeological and geological findings of his day. He believed that the druidic practices he associated with the ancient Britons had similarities with the biblical patriarchs, a theory that reflects the attempt to link archaeological discoveries with religious thought in the 18th century.
His works, such as "Stonehenge, A Temple Restor'd to the British Druids" (1740) and "Abury, A Temple of the British Druids" (1743), were influential in popularizing the idea that the megalithic structures of Britain were built by the Druids for religious purposes, although this theory has been revised and critiqued by subsequent scholarship.
William Stukeley's contributions to archaeology, his detailed records, and his attempts to integrate scientific and religious thought make him a significant figure in the history of science and the study of ancient cultures in Britain.
The Maunder Minimum refers to a period of significantly reduced sunspot activity that occurred between approximately 1645 and 1715. Named after the British astronomer Edward Walter Maunder, who, along with his wife Annie Russell Maunder, studied this phenomenon in the late 19th and early 20th centuries, the Maunder Minimum coincides with the coldest part of the Little Ice Age, a period of cooler temperatures spanning from the 14th to the 19th century in the Northern Hemisphere.
During the Maunder Minimum, astronomers observed very few sunspots, a stark contrast to the more typical solar activity observed both before and after this period. Sunspots are darker, cooler areas on the Sun's surface that are associated with magnetic activity. Their numbers wax and wane over approximately an 11-year cycle, known as the solar cycle, which reflects fluctuations in the Sun's magnetic activity. The scarcity of sunspots during the Maunder Minimum suggested a significant decline in the Sun's magnetic activity.
The connection between sunspot activity and climate on Earth has been a subject of scientific interest, particularly in how variations in solar radiation might influence terrestrial climate conditions. The Maunder Minimum has been associated with colder temperatures, longer winters, and harsher climates in many parts of the world, supporting the idea that solar variability can have a noticeable impact on Earth's climate.
The study of the Maunder Minimum and similar periods of reduced solar activity helps scientists understand the Sun's behavior and its potential effects on Earth's climate system. It also underscores the complexity of climate dynamics and the various factors, including solar activity, that can influence climate patterns over time.
The story of the seven blind men describing an elephant comes to mind. All of them were right, but all were incomplete. I hope to see a unified theory in my lifetime. Great article.
In 2021 Arthur Firstenberg participated in bringing a case to the Supreme Court of the United States challenging the 1996 Telecommunications Act prohibition of state and local regulation of cell towers environmental and health impacts. The Supreme Court declined to hear the case.
Having healed long-term inflammation of my knee with Transcutaneous Electrical Stimulation (TENs) after years of ineffective pharmaceuticals, I can attest to the electrical role.
Luc Montagnier’s experiment blows my mind… has anyone replicated the results?