"The day science begins to study non-physical phenomena, it will make more progress in one decade than in all the previous centuries of its existence." - Nikola Tesla
The speaker is Michael Tellinger: https://michaeltellinger.com/
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Nikola Tesla: "God Lives Here" "The day science begins to study non-physical phenomena, it will make more progress in one decade than in all the previous centuries of its existence." - Nikola Tesla The speaker is Michael Tellinger: https://michaeltellinger.com/
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Amie Gordon : Daily Mail, UK : 05 Apr 2017 © Jeff Miles These stunning photos show the violet stream shooting out from the top of a cloud. A photographer couldn't believe his luck when he captured a rare celestial phenomenon creating a breathtaking vision against the night sky. Photographs taken in Australia depict the colourful violet stream shooting out against the deep blue of a night sky behind, while the raging storm lights up the clouds below. The phenomenon, called ionospheric lightning, occurs at much higher altitudes than normal lightening or storm clouds. Photographer Jeff Miles captured the rare sight near the small town of Pilbara in Western Australia. © Jeff Miles Upper atmospheric lightning, or ionospheric lightning, are terms used by experts to refer to a family of short-lived electrical-breakdown phenomena that occur above the altitudes of normal lightning and storm clouds. He said: 'This was a mind blowing experience to see with my eyes, never mind research the photos to find out just how rare they are. 'Gigantic jets have only been captured on camera a handful of times and this night I was lucky enough to see six jets.'
In the Lofoten Islands of Norway, Spaceweather.com reader Rob Stammes operates a magnetic observatory. Twenty-four hours a day, he measures the strength and direction of the local magnetic field as well as electrical currents running through the ground. During geomagnetic storms, his chart recordings go haywire. On Jan. 13th, something different happened. They rang like a bell: "For about an hour, electrical currents in the ground beneath my observatory flowed back and forth with a sinusoidal period near 2 minutes," says Stammes. "This is rare."
These are natural ultra-low frequency oscillations known to researchers as "pulsations continuous" (Pc). The physics is familiar to anyone who has studied bells or resonant cavities. Earth's magnetic field carves out a cavity in the surrounding solar wind. Gusts of solar wind can make the cavity "ring" akin to a bell (references: #1, #2, #3). Human ears cannot hear this ringing; it is electromagnetic rather than acoustic. The physical effect is felt beneath our feet. As the cavity vibrates, magnetic fields swing back and forth, causing electrical currents to flow through the ground below. The Pc waves Stammes detected are a variety known as Pc4, which oscillate in the frequency range 6.7–22 mHz. Such waves are good at energizing particles trapped in Earth's magnetic field and often cause local outbursts of bright auroras. www.spaceweather.com Similar occurrences were also reported on 12 September and 23 October 2016: http://www.ascensionnow.co.uk/quick-info/-earths-magnetic-field-rings-like-a-bell - 12 Sept. 2016 http://www.ascensionnow.co.uk/quick-info/sinusoidal-ground-currents-in-norway - 23 Oct. 2016 Not all space weather occurs high overhead. Sometimes it happens in the soil beneath our feet. Example: On Oct. 23rd in the Lofoten Islands of Norway, electrical currents began to flow through the ground, back and forth with a sinusoidal period of 74 seconds. Rob Stammes recorded the phenomenon at his geomagnetic observatory: "Just after midnight UTC and around 02.36 local time, my ground current instruments picked up these very stable pulsations," says Stammes.
What's happening here? Ground currents are a sign of changing magnetic fields. Earth's magnetic field around the Lofoten Islands was swinging back and forth, inducing a sinusoidal amperage in the soil beneath Stamme's observatory. These are natural ultra-low frequency oscillations known to researchers as "pulsations continuous" (Pc). The physics is familiar to anyone who has studied bells or resonant cavities. Earth's magnetic field extends out into space and carves out a cavity in the surrounding solar wind. Pressure fluctuations in the solar wind can excite wave modes in the cavity--usually in a noisy cacophany of many frequencies, but sometimes with almost-monochromatic purity. In such cases, Earth's magnetic field "rings like a bell" with slow tones that reach all the way down to the ground. That's what happened on Oct. 23rd. References: #1, #2, #3. www.spaceweather.com In the Lofoten Islands of Norway, Spaceweather.com reader Rob Stammes operates a magnetic observatory. 24 hours a day, he measures the strength and direction of the local magnetic field as well electrical currents running through the ground. During geomagnetic storms, his chart recordings go haywire. On Sept. 12th, something different happened. They rang like a bell: "During the morning and especially around noon, sinusoidal pulsations appeared on my instruments," says Stammes. "The period was close to 115 seconds." These are natural ultra-low frequency oscillations known to researchers as "pulsations continuous" (Pc). The physics is familiar to anyone who has studied bells or resonant cavities. Earth's magnetic field carves out a cavity in the surrounding solar wind. Pressure fluctuations in the solar wind can excite wave modes in this cavity much like Stammes observed. References: #1, #2, #3. The Sept. 12th oscillations are Pc4 waves; in other words, their frequencies fall in the range 6.7–22 mHz. Pc4 waves, and their even lower frequency cousins Pc5 waves (1.7–6.7 mHz), can have an energizing influence on particles in Earth's inner magnetosphere because the waves resonate with the natural motion of particles around the geomagnetic field. Perhaps it is no surprise, then, that bright auroras were observed on both Sept. 11th and 12th. Ole Salomonsen photographed these from the window of an airplane just before sunrise in Norway: "To get the shot was not easy," says Salomonsen. "I had to use a handheld camera in a moving plane! To create some darkness, I draped one of my jackets to over me and the window to prevent cabin-light reflections ruining the shot. The people sitting next to me probably must have had a good laugh :) Anyway I think it was worth it. Observing the auroras from air is definitely special."
Rob Stammes has been monitoring magnetic pulsations in Norway for years. "They seem to occur most often around the equinoxes," he says. That means we should stay tuned for more. It is aurora season, after all. www.spaceweather.com Kenrick Vezina :MIT Technology Review : 23 Nov 2015 Researchers in Peru have a new way to capture electricity from plants and bacteria to help rainforest communities. Researchers at the Universidad de Ingeniería y Tecnología (UTEC) have developed a technique for capturing the electricity emitted from plants. Actually, to be fair, it's Geobacter— a genus of bacteria that live in the soil — that do the grunt work. Robby Berman at Slate explains the process: "[N]utrients in plants encounter microorganisms called 'geobacters' in the dirt, and that process releases electrons that electrodes in the dirt can capture. A grid of these electrodes can transfer the electrons into a standard battery." UTEC has partnered with global ad agency FCB to produce 10 prototypes and distribute them to houses in the rainforest village of Nuevo Saposoa. Each contains an electrode grid buried in dirt, in which a single plant grows. The grid connects to a battery, which powers a large LED lamp attached to an adjustable arm on the outside of the box. The UTEC video below shows the boxes in action (including a money shot of a lamp being triumphantly turned on): For Nuevo Saposoa and other underserved communities, this is more than just a crackerjack bit of biological engineering. Electricity, and lighting in particular, are a very real need. Berman writes: "In the rainforest villages of Nuevo Saposoa and Pucallpa in Perù, there's an existing electrical grid, but since a flood last March damaged its cables, it hasn't been working. Forty-two percent of the communities in the rainforest don't have even that much. Sundown means lights out, a real problem for families with small children—and for students who need to study—unless they resort to unhealthy and dangerous kerosene lamps." UTEC has a tradition of this sort of humanitarian innovation, Berman explains. "A while back, it found a way of growing plants on platforms using clean moisture pulled from the air in a region whose groundwater—and ground—has been ruined by pollution." If the "plant lamps" (that's UTEC's name, not mine) are successful, their appeal isn't going to be limited to rainforest communities. Who wouldn't want a houseplant that cut back on their electric bill? Add a bit of green to your bank account and your bedroom. The rest of this article can be found here.
[Electric Universe] : Forming new circuits? Meet the electric life forms that live on pure energy22/8/2015 Catherine Brahic : New Scientist : 16 Jul 2014 Electric bacteria connect to form wires Full story: http://www.newscientist.com/article/d... : Some bacteria produce hair-like filaments that act as wires, ferrying electrons back and forth between the cells and their environment Unlike any other life on Earth, these extraordinary bacteria use energy in its purest form - they eat and breathe electrons - and they are everywhere. STICK an electrode in the ground, pump electrons down it, and they will come: living cells that eat electricity. We have known bacteria to survive on a variety of energy sources, but none as weird as this. Think of Frankenstein's monster, brought to life by galvanic energy, except these "electric bacteria" are very real and are popping up all over the place. Unlike any other living thing on Earth, electric bacteria use energy in its purest form - naked electricity in the shape of electrons harvested from rocks and metals. We already knew about two types, Shewanella and Geobacter. Now, biologists are showing that they can entice many more out of rocks and marine mud by tempting them with a bit of electrical juice. Experiments growing bacteria on battery electrodes demonstrate that these novel, mind-boggling forms of life are essentially eating and excreting electricity. That should not come as a complete surprise, says Kenneth Nealson at the University of Southern California, Los Angeles. We know that life, when you boil it right down, is a flow of electrons: "You eat sugars that have excess electrons, and you breathe in oxygen that willingly takes them." Our cells break down the sugars, and the electrons flow through them in a complex set of chemical reactions until they are passed on to electron-hungry oxygen. In the process, cells make ATP, a molecule that acts as an energy storage unit for almost all living things. Moving electrons around is a key part of making ATP. "Life's very clever," says Nealson. "It figures out how to suck electrons out of everything we eat and keep them under control." In most living things, the body packages the electrons up into molecules that can safely carry them through the cells until they are dumped on to oxygen. "That's the way we make all our energy and it's the same for every organism on this planet," says Nealson. "Electrons must flow in order for energy to be gained. This is why when someone suffocates another person they are dead within minutes. You have stopped the supply of oxygen, so the electrons can no longer flow. The discovery of electric bacteria shows that some very basic forms of life can do away with sugary middlemen and handle the energy in its purest form - electrons, harvested from the surface of minerals. "It is truly foreign, you know," says Nealson. "In a sense, alien."
University of the West of England : Science Daily : Fri, 06 Mar 2015
The research team is led by Professor Ioannis Ieropoulos, Director of the Bristol BioEnergy Centre located in the Bristol Robotics Laboratory at UWE Bristol. Professor Ieropoulos says, "We have already proved that this way of generating electricity works. Work by the Bristol BioEnergy Centre hit the headlines in 2013 when the team demonstrated that electricity generated by microbial fuel cell stacks could power a mobile phone. This exciting project with Oxfam could have a huge impact in refugee camps.
"The microbial fuel cells work by employing live microbes which feed on urine (fuel) for their own growth and maintenance. The MFC is in effect a system which taps a portion of that biochemical energy used for microbial growth, and converts that directly into electricity -- what we are calling urine-tricity or pee power. This technology is about as green as it gets, as we do not need to utilise fossil fuels and we are effectively using a waste product that will be in plentiful supply." The urinal on the University campus resembles toilets used in refugee camps by Oxfam to make the trial as realistic as possible. The technology that converts the urine into power sits underneath the urinal and can be viewed through a clear screen. Andy Bastable, Head of Water and Sanitation at Oxfam, says, "Oxfam is an expert at providing sanitation in disaster zones, and it is always a challenge to light inaccessible areas far from a power supply. This technology is a huge step forward. Living in a refugee camp is hard enough without the added threat of being assaulted in dark places at night. The potential of this invention is huge." Both Professor Ieropoulos and Andy Bastable agree it is the cheap, sustainable aspect of this technology, which relies on the abundant, free supply of urine that makes it so practical for aid agencies to use in the field. Professor Ieropoulos says "One microbial fuel cell costs about £1 to make, and we think that a small unit like the demo we have mocked up for this experiment could cost as little as £600 to set up, which is a significant bonus as this technology is in theory everlasting." It certainly brings new meaning to the idea of spending a penny in the fight against poverty. Video: https://www.youtube.com/watch?v=A3dyegoKX_U&feature=youtu.be B. D. Colen : Harvard Gazette
Myelin, the electrical insulating material in the body long known to be essential for the fast transmission of impulses along the axons of nerve cells, is not as ubiquitous as thought, according to new work led by Professor Paola Arlotta of the Harvard Stem Cell Institute (HSCI) and the University's Department of Stem Cell and Regenerative Biology, in collaboration with Professor Jeff Lichtman of Harvard's Department of Molecular and Cellular Biology. "Myelin is a relatively recent invention during evolution," says Arlotta. "It's thought that myelin allowed the brain to communicate really fast to the far reaches of the body, and that it has endowed the brain with the capacity to compute higher-level functions." In fact, loss of myelin is a feature in a number of devastating diseases, including multiple sclerosis and schizophrenia. But the new research shows that despite myelin's essential roles in the brain, "some of the most evolved, most complex neurons of the nervous system have less myelin than older, more ancestral ones," said Arlotta, co-director of the HSCI neuroscience program. What this means, she said, is that the higher one looks in the cerebral cortex - closer to the top of the brain, which is its most evolved part - the less myelin one finds. Not only that, but "neurons in this part of the brain display a brand-new way of positioning myelin along their axons that has not been previously seen. They have 'intermittent myelin' with long axon tracts that lack myelin interspersed among myelin-rich segments." "Contrary to the common assumptions that neurons use a universal profile of myelin distribution on their axons, the work indicates that different neurons choose to myelinate their axons differently." Arlotta said. "In classic neurobiology textbooks, myelin is represented on axons as a sequence of myelinated segments separated by very short nodes that lack myelin. This distribution of myelin was tacitly assumed to be always the same, on every neuron, from the beginning to the end of the axon. This new work finds this not to be the case." The results of the research by Arlotta and postdoctoral fellow Giulio Srubek Tomassy, the first author on the report, are published in the latest edition of the journal Science. The paper is accompanied by a "perspective" by R. Douglas Fields of the Eunice Kennedy Shriver National Institute of Child Health and Human Development at the National Institutes of Health, who said that Arlotta and Tomassy's findings raise important questions about the purpose of myelin, and "are likely to spark new concepts about how information is transmitted and integrated in the brain." Arlotta and Tomassy collaborated closely on the new work with postdoctoral fellow Daniel Berger of the Lichtman lab, which generated one of the two massive electron microscopy databases that made the work possible. "The fact that it is the most evolved neurons, the ones that have expanded dramatically in humans, suggest that what we're seeing might be the 'future'. As neuronal diversity increases and the brain needs to process more and more complex information, neurons change the way they use myelin to achieve more." said Arlotta. Tomassy said it is possible that these profiles of myelination "may be giving neurons an opportunity to branch out and 'talk' to neighboring neurons". For example, because axons cannot make synaptic contacts when they are myelinated, one possibility is that these long myelin gaps may be needed to increase neuronal communication and synchronize responses across different neurons. He and Arlotta postulate that the intermittent myelin may be intended to fine-tune the electrical impulses traveling along the axons, in order to allow the emergence of highly complex neuronal behaviors. Source Suspicious0bservers Published on 15 Sep 2014 www.Suspicious0bservers.org : www.ObservatoryProject.com : Aurora Video: https://vimeo.com/106051784 LINKS
Spaceweather: http://spaceweather.com SDO: http://sdo.gsfc.nasa.gov/data/ Helioviewer: http://www.helioviewer.org/ SOHO: http://sohodata.nascom.nasa.gov/cgi-b... Stereo: http://stereo.gsfc.nasa.gov/cgi-bin/i... iSWA: http://iswa.gsfc.nasa.gov/iswa/iSWA.html NASA ENLIL SPIRAL: http://iswa.gsfc.nasa.gov:8080/IswaSy... NOAA ENLIL SPIRAL: http://www.swpc.noaa.gov/wsa-enlil/ GOES Xray: http://www.swpc.noaa.gov/sxi/goes15/i... NOAA Sunspot Classifications: http://www.swpc.noaa.gov/ftpdir/lates... GONG: http://gong2.nso.edu/dailyimages/ GONG Magnetic Maps: http://gong.nso.edu/data/magmap/ondem... Becky Oskin : Live Science : 24 Jul 2014 The Earth sings every day, with an electric chorus. With the right tuning, radios can eavesdrop on this sizzling symphony of crackles, pops and whistles - the melody of millions of lightning bolts. A listener in New Zealand can even hear a volcano in Alaska erupt, a new study reports.
Lightning strikes unleash intense bursts of visible light and very-low-frequency (VLF) radio waves, among other kinds of energy. With a VLF receiver, anyone can listen to the constant chatter of Earth's lightning, estimated at 8 million strikes every day. (Not every lightning bolt becomes a whistler.) A worldwide listening network is tuned to one particular lightning sound, called whistlers. These eerie electronic signals supposedly got their name from soldiers, who compared the sound to falling grenades. Modern ears might liken whistlers to a video game's "pew-pew-pew" soundtrack. [Listen to the Volcanic Whistling] Whistlers are pulses of VLF radio energy that have traveled into space, leaping from one side of Earth to the other along the planet's magnetic field lines. Scientists monitor whistlers because the beautiful noise tells them about the planet's protective bubble of charged particles, called the plasmasphere. Whistlers on Venus and Jupiter suggest lightning also crackles on other planets. Now, however, researchers have also linked a flurry of whistlers detected in Dunedin, New Zealand, to processes deep inside the Earth. For the first time, scientists have connected whistlers to volcanic lightning, according to a study published July 2 in the journal Geophysical Research Letters. "I think it's really cool," said Jacob Bortnik, a researcher at the University of California, Los Angeles, who was not involved in the study. "We're establishing a new connection between deep Earth and space." Read the full article - and listen to the earth 'singing' - at : http://www.sott.net/article/282775-Cosmic-music-Whistling-volcanic-lightning-heard-halfway-around-the-world NASA acknowledging Electric Universe?: New NASA model gives glimpse into the invisible world of electric asteroids phys.org Wed, 25 Jun 2014 17:23 CDT © NASA This is a concept image of an astronaut preparing to take samples from a captured asteroid. The sun is in the background; NASA wants to know more about electrical activity generated by the interaction of solar wind and radiation with asteroids. Space may appear empty - a soundless vacuum, but it's not an absolute void. It flows with electric activity that is not visible to our eyes. NASA is developing plans to send humans to an asteroid, and wants to know more about the electrical environment explorers will encounter there. A solar wind blown from the surface of the sun at about a million miles per hour flows around all solar system objects, forming swirling eddies and vortices in its wake. Magnetic fields carried by the solar wind warp, twist, and snap as they slam into the magnetic fields around other objects in our solar system, blasting particles to millions of miles per hour and sending electric currents surging in magnetic storms that, around Earth, can damage sensitive technology like satellites and power grids. On airless objects like moons and asteroids, sunlight ejects negatively charged electrons from matter, giving sunlit areas a strong positive electric charge. The solar wind is an electrically conducting gas called plasma where matter has been torn apart into electrons, which are relatively light, and positively charged ions, which are thousands of times more massive. While areas in sunlight can charge positive, areas in shadow get a strong negative charge when electrons in the solar wind rush in ahead of heavier ions to fill voids created as the solar wind flows by. The surface of Earth is shielded from the direct effects of this activity by our planet's magnetic field, but airless objects without strong repelling magnetic fields, like small asteroids, have no protection from electrical activity in space. NASA-sponsored researchers funded by the Solar System Exploration Research Virtual Institute (SSERVI) (formerly the NASA Lunar Science Institute (NLSI)) have developed a new computer model that can predict and visualize the interaction between the solar wind, solar radiation, and the surface of asteroids in unprecedented detail. Read more at : http://www.sott.net/article/280953-NASA-acknowledging-Electric-Universe-New-NASA-model-gives-glimpse-into-the-invisible-world-of-electric-asteroids On Saturday, March 29th, the magnetic canopy of sunspot AR2017 erupted, producing a brief but intense X1-class solar flare. A flash of extreme UV radiation sent waves of ionization rippling through Earth's upper atmosphere and disturbed the normal propagation of terrestrial radio transmissions. Radio engineer Stan Nelson of Roswell, NM, was monitoring WWV at 20 MHz when the signal wobbled then disappeared entirely for several minutes: "The Doppler shift of the WWV signal (the 'wobble' just before the blackout) was nearly 12 Hz, the most I have ever seen," says Nelson. The flare not only blacked out radio signals, but also produced some radio signals of its own. The explosion above sunspot AR2017 sent shock waves racing through the sun's atmosphere at speeds as high as 4800 km/s (11 million mph). Radio emissions stimulated by those shocks crossed the 93 million mile divide to Earth, causing shortwave radio receivers to roar with static. Here is a plot of the outburst detected by Nelson using a 20.1 MHz RadioJove receiver. Elsewhere, strong bursts were recorded at frequencies as high as 2800 MHz. It was a very broad band event. NASA's Solar Dynamics Observatory recorded a beautiful movie of the flare: The flash you just saw was extreme UV radiation, the type of radiation that ionizes the upper layers of our atmosphere. In this case, the ionizing action of the flare led to a rare magnetic crochet, measuring 17 nT at the magnetometer in Boulder, Colorado.
A magnetic crochet is a ripple in Earth's magnetic field caused by electrical currents flowing in air 60 km to 100 km above our heads. Unlike geomagnetic disturbances that arrive with CMEs days after a flare, a magnetic crochet occurs while the flare is in progress. They tend to occur during fast impulsive flares like this one. The magnetic field of sunspot AR2017 is decaying now, but it still poses a threat for eruptions. www.spaceweather.com Published on 9 Feb 2014 by 'Suspicious Observer' - Ben Davidson Website: http://www.suspicious0bservers.org Blog: http://www.suspicious0bserverscollect... Major Warnings/Alerts: https://twitter.com/TheRealS0s Today's Featured Links: Antarctic to Chile: http://mnras.oxfordjournals.org/conte... STARWATER Article: http://wavechronicle.com/wave/?p=1151 Billy's Latest (electromagnetic creation): https://www.youtube.com/watch?v=vYtxM... Earth WindMap: http://earth.nullschool.net/#current/... REPEAT LINKS: This week, there was a storm on Jupiter--a radio storm. Amateur radio astronomer Thomas Ashcraft recorded the event on Dec. 23rd using a shortwave radio telescope located in New Mexico. Click here to hear the whooshing, crackling, popping sounds that emerged from his telescope's loudspeaker: "Although few were aware of it, Earth was bathed in Jovian radio beams for an hour and half," says Ashcraft. "The audio recording captures the sounds I heard during one minute around 09:30 UT." Jupiter's radio storms are caused by natural radio lasers in the planet's magnetosphere that sweep past Earth as Jupiter rotates. Electrical currents flowing between Jupiter's upper atmosphere and the volcanic moon Io can boost these emissions to power levels easily detected by ham radio antennas on Earth. Jovian "S-bursts" (short bursts) and "L-bursts" (long bursts) mimic the sounds of woodpeckers, whales, and waves crashing on the beach. Here are a few audio samples: S-bursts, S-bursts (slowed down 128:1), L-Bursts Now is a good time to listen to Jupiter's radio storms. The distance between Earth and Jupiter is decreasing as the giant planet approaches opposition on Jan. 5th; and the closer Jupiter comes, the louder it gets. Jupiter is a bit like a lighthouse. It is possible to predict when the planet's most intense radio beams will sweep past Earth. The next storm is due on Dec. 30th between 10:00 and 11:00 UT. www.spaceweather.com Note: [Messenger Spirit]
In ancient Mesopotamia the planets were seen as gods in their own right. The planet Jupiter was known as Neberu (Nibiru?) and associated with the god Marduk. He was the patron god of Babylon, and considered equivalent to the older Sumerian god Enlil, the king of the gods, and hence associated with rulership and wisdom. In the Jewish cabbala, Jupiter is the fourth sphere, Mercy (Chesed). Chesed also lies on the pillar of creation between Chokmah (pure creative power) and Netzach (individualised images), representing archetypal ideas. http://www.skyscript.co.uk/jupitermyth.html |
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