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CERN, Large Hadron Collider: Difference between revisions
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Once these particles accelerate and hit the 99.999% speed of light, they hit a barrier, which is the threshold where they can’t travel any faster. However, they continue to be injected with energy in the form of Microwaves and Radiofrequency Energy. There are a couple of stages involved in this. It starts with Radiofrequency Energy pushing the particles and then using Microwave eEergy to accelerate them even further. Since they can’t travel any faster, they just keep pumping Microwave Energy, which then increases the mass 14,000 times prior to acceleration called the resting mass. | Once these particles accelerate and hit the 99.999% speed of light, they hit a barrier, which is the threshold where they can’t travel any faster. However, they continue to be injected with energy in the form of Microwaves and Radiofrequency Energy. There are a couple of stages involved in this. It starts with Radiofrequency Energy pushing the particles and then using Microwave eEergy to accelerate them even further. Since they can’t travel any faster, they just keep pumping Microwave Energy, which then increases the mass 14,000 times prior to acceleration called the resting mass. | ||
These two streams of particles at a point collide head on, and when they do, it equivocates to about 25% of them hitting, where the streams cross. There are times it’s just glancing blows. But, once they collide, tremendous amounts of energies are produced due to the greater mass, which is the highest we have ever seen. | These two streams of particles at a point collide head on, and when they do, it equivocates to about 25% of them hitting, where the streams cross. There are times it’s just glancing blows. But, once they collide, tremendous amounts of energies are produced due to the greater mass, which is the highest we have ever seen. The results of these collisions generate extreme amounts of heat for a Nanosecond or smaller, a picosecond. The collisions produce up to 100,000 times more heat than our sun, but because it’s so short, it doesn’t have the ability to heat up anything around it. | ||
CERN is producing magnetic fields from these collisions, 100,000 times stronger than the Earth’s natural magnetic field. These magnetic fields extend through our planet and out to our magnetosphere, causing major interruptions to our shields. Our magnetosphere is what protects us from gamma rays, particles from our sun and the cosmos. | |||
Telluric currents or Earth currents are generated because of the geomagnetic field (Magnetosphere) and are conducted back to the surface of the Earth and back into the mantle, and they induce Gravimetric waves. Gravimetric waves are gravity waves (a physical wave) that travel along the crust and through the mantle of the Earth. Telluric Waves are also audible, which why we have heard sounds in the atmosphere as these currents are conducted from the magnetosphere back to the Earth, which people refer to as apocalyptic sounds. But the Earth also has naturally occurring telluric currents called infrasound. | |||
Low-frequency acoustic emissions are waves that range from 20Hz to 100Hz, which are below the threshold of normal human hearing. Animals can hear at the lower frequencies. Infrasonic waves modulated that range from about 0 to 15 Hz, like radio transmissions occurring both naturally through Telluric currents and from CERN. If you look at the Egyptian paintings and carvings from ancient times, you will see the figures of gods and deities holding tuning forks. | |||