As I was researching about whether or not we can predict earthquakes I found that there is a lot of very interesting information regarding Solar Flares. I then decided that Solar Flares must have some corellation to earthquakes so that is why I am compiling this article.
According to scientists at (NCAR) in Boulder, Colo. "The next solar activity cycle will be 30 to 50 percent stronger than the previous one, and up to a year late in arriving. ... One needs to go back over 8,000 years in order to find a time when the sun was, on average, as active as it is at present!" - They were speaking about the solar activity we are starting to experience at this time. NASA admitted on their website "Spacequakes can cause Northern lights and magnitude 5 or 6 earthquake". The different strength Solar Flares explained Scientists classify solar flares according to their brightness in the x-ray wavelengths. There are three categories of solar flares - C-class flares - These are small solar flares with few noticeable consequences here on Earth. M-class flares - These are medium-sized solar flares. They can cause brief radio blackouts that affect Earth's polar regions. Minor radiation storms can sometimes follow an M-class flare. X-class flares - these are the biggest and are classified as major events that can trigger radio blackouts around the whole world and long-lasting radiation storms in the upper atmosphere.
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2016 the year of Free Clean Energy
The purpose of this guide is to provide you with an introduction to a series of devices which have been shown to have very interesting properties and some are (incorrectly) described as 'perpetual motion' machines. What's that you say - perpetual motion is impossible? My, you're a difficult one to please. The electrons in the molecules of rock formations have been orbiting steadily for millions of years without stopping - at what point will you agree that they are in perpetual motion? So, why don't electrons run out of energy and just slow down to a standstill? Quantum Mechanics has shown that the universe is a seething cauldron of energy with particles popping into existence and then dropping out again. Knowing that E = mC2, we can see that a tremendous amount of energy is needed to create any form of matter. Scientists remark that if we could tap even a small part of that energy, then we would have free energy for our lifetime. The Law of Conservation of Energy is undoubtedly correct when it shows that more energy cannot be taken out of any system than is put into that system. However, that does not mean that we cannot get more energy out of a system than we put into it. A crude example is a solar panel in sunlight. We get electrical power out of the panel but we do not put the sunlight into the panel - the sunlight arrives on its own. This example is simple as we can see the sunlight reaching the solar panel. If, instead of the solar panel, we had a device which absorbs some of the energy which Quantum Mechanics observes and gives out, say, electrical power, would that be so different? Most people say "yes! - it is impossible!" but this reaction is based on the fact that we cannot see this sea of energy. Should we say that a TV set cannot possibly work because we cannot see a television transmission signal? Many people have produced devices and ideas for tapping this energy. The energy is often called "Zero-Point Energy" because it is the energy which remains when a system has its temperature lowered to absolute zero. This presentation is introductory information on what has already been achieved in this field: devices which output more power than they require to run. This looks as if they contradict the Law of Conservation of Energy, but they don't, and you can see this when you take the zero-point energy field into account. The material on this web site describes many different devices, with diagrams, photographs, explanations, pointers to web sites, etc. As some of the devices need an understanding of electronic circuitry, a simple, step-by-step instruction course in electronics is also provided in Chapter 12. This can take someone with no previous knowledge of electronics, to the level where they can read, understand, design and build the type of circuits used with these devices. This is a very interesting field and the topic is quite absorbing once you get past the "it has to be impossible" attitude. We were once told that it would be impossible to cycle at more than 15 mph as the wind pressure would prevent the cyclist from breathing. Do you want to stay with that type of 'scientific' expert? Have some fun - discover the facts. There are many, many interesting devices and ideas already on the web. This site does not mention them all by any means. What it does, is take some of what are in my opinion, the most promising and interesting items, group them by category, and attempt to describe them clearly and without too many technical terms. If you are not familiar with electronics, then some items may be difficult to understand. In that case, I suggest that you start with Chapter 12 and go through it in order, moving at whatever speed suits you, before examining the other sections. I hope you enjoy what you read.
What does the future hold? Well, if you have the right education, it could mean an exciting new, futuristic career. These 20 jobs are worlds from ordinary and may surprise you. Check out some of the top careers of the future, learn more about new and exciting jobs on the horizon, and learn how you can train to be a pioneer in a futuristic field.
Jobs may be scarce today, but if current trends hold, pretty soon there will be plenty of fun, lucrative gigs. If you have the vision to start prepping now, you could be flying starships, reading minds for DARPA, or manning a fusion or free energy reactor. The jobs are coming. Feel free to thank us over lunch at the hotel you built- on Mars.
Evolution towards conscious co-creation and the universal cycle.
A solar flare is a magnetic storm on the Sun which appears to be a very bright spot and a gaseous surface eruption such as in this photograph. Solar flares release huge amounts of high-energy particles and gases that are tremendously hot. They are ejected thousands of miles from the surface of the Sun. According to Mitch Battros – Earth Changes Media, “One of the best known prophecies/predictions of our Mayan elders is the message of a changing paradigm of our era. In the words of the Maya, it is said that we are now in a time of “change and conflict”. The change is coming from the ‘outside” in the way of weather, natural phenomena, celestial disturbance (sun flares) and man made self-inflicted trauma. The conflict comes from the ‘inside’ in the way of personal challenge, grief, bewilderment, depression, anxiety, and fear. It is said we are “at the cross roads”. A time of choosing a new path, deciding on a new self and community direction, venturing into the unknown, finding our true identity of being. Others will choose to stay on the same road, stay with the familiar, and place great effort to maintain “predictability.” A recent study published in the New Scientist (linked below), indicates a direct connection between the Sun’s solar storms and human biological effect. The conduit which facilitates the charged particles from the Sun to human disturbance is the very same conduit which steers Earth’s weather through the Magnetic Field on Earth, and also through the magnetic fields around humans. The recent geomagnetic storms are causing earth changing events in the way of earthquakes, volcanic eruptions, hurricanes, tornadoes, and wind storms.
Nerve-cell tendrils readily thread their way through tiny semiconductor tubes, researchers find, forming a crisscrossed network like vines twining toward the sun. The discovery that offshoots from nascent mouse nerve cells explore the specially designed tubes could lead to tricks for studying nervous system diseases or testing the effects of potential drugs. Such a system may even bring researchers closer to brain-computer interfaces that seamlessly integrate artificial limbs or other prosthetic devices.
“This is quite innovative and interesting,” says nanomaterials expert Nicholas Kotov of the University of Michigan in Ann Arbor. “There is a great need for interfaces between electronic and neuronal tissues.” To lay the groundwork for a nerve-electronic hybrid, graduate student Minrui Yu of the University of Wisconsin–Madison and his colleagues created tubes of layered silicon and germanium, materials that could insulate electric signals sent by a nerve cell. The tubes were various sizes and shapes and big enough for a nerve cell’s extensions to crawl through but too small for the cell’s main body to get inside. |
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