Forwarded from Doomsday Time Anomalies
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🔥5❤2💩2🤝2💯1
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STAY AHEAD OF THE CURVE
Learn the basics of Oscillation, Ether And Electrogravitics.
Our Azazel Workshops #LearningToWalk and #LearningToFly Have been consolidated to one channel
https://t.me/LearningToWalk
Learn the basics of Oscillation, Ether And Electrogravitics.
Our Azazel Workshops #LearningToWalk and #LearningToFly Have been consolidated to one channel
https://t.me/LearningToWalk
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Forwarded from Doomsday Time Anomalies
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Feds Wanna Play Games Lets Play Games. Scalar Interferometer Part 1 to 5 Material based on T. Bearden, Fer de Lance
Understanding the basics of Electromagnetism & exploring the various modes of scalar interferometry.
#SCALARELECTRODYNAMICS101
#SCALARELECTROMAGNETICS101
#scalarelectromagneticwarfare #scalarelectromagneticfield
#scalarelectromagneticwaves
#scalarelectrodynamics
#scalarelectromagneticweapons
Part 5
https://t.me/LearningToWalk/1081
https://t.me/AzazelNews/581880
Part 4
https://t.me/LearningToWalk/1177
https://t.me/AzazelNews/578086
Part 3
https://t.me/LearningToWalk/1149
https://t.me/AzazelNews/575160
Part 2
https://t.me/LearningToWalk/1112
https://t.me/AzazelNews/574340
Part 1
https://t.me/LearningToWalk/1081
https://t.me/AzazelNews/573957
Understanding the basics of Electromagnetism & exploring the various modes of scalar interferometry.
#SCALARELECTRODYNAMICS101
#SCALARELECTROMAGNETICS101
#scalarelectromagneticwarfare #scalarelectromagneticfield
#scalarelectromagneticwaves
#scalarelectrodynamics
#scalarelectromagneticweapons
Part 5
https://t.me/LearningToWalk/1081
https://t.me/AzazelNews/581880
Part 4
https://t.me/LearningToWalk/1177
https://t.me/AzazelNews/578086
Part 3
https://t.me/LearningToWalk/1149
https://t.me/AzazelNews/575160
Part 2
https://t.me/LearningToWalk/1112
https://t.me/AzazelNews/574340
Part 1
https://t.me/LearningToWalk/1081
https://t.me/AzazelNews/573957
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Forwarded from Aries
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Forwarded from Aries
ITER ("The Way" in Latin) is one of the most ambitious energy projects in the world today.
In southern France, 35 nations* are collaborating to build the world's largest tokamak, a magnetic fusion device that has been designed to prove the feasibility of fusion as a large-scale and carbon-free source of energy based on the same principle that powers our Sun and stars.
The experimental campaign that will be carried out at ITER is crucial to advancing fusion science and preparing the way for the fusion power plants of tomorrow.
ITER will be the first fusion device to produce net energy. ITER will be the first fusion device to maintain fusion for long periods of time. And ITER will be the first fusion device to test the integrated technologies, materials, and physics regimes necessary for the commercial production of fusion-based electricity.
Thousands of engineers and scientists have contributed to the design of ITER since the idea for an international joint experiment in fusion was first launched in 1985. The ITER Members—China, the European Union, India, Japan, Korea, Russia and the United States —are now engaged in a 35-year collaboration to build and operate the ITER experimental device, and together bring fusion to the point where a demonstration fusion reactor can be designed.
In southern France, 35 nations* are collaborating to build the world's largest tokamak, a magnetic fusion device that has been designed to prove the feasibility of fusion as a large-scale and carbon-free source of energy based on the same principle that powers our Sun and stars.
The experimental campaign that will be carried out at ITER is crucial to advancing fusion science and preparing the way for the fusion power plants of tomorrow.
ITER will be the first fusion device to produce net energy. ITER will be the first fusion device to maintain fusion for long periods of time. And ITER will be the first fusion device to test the integrated technologies, materials, and physics regimes necessary for the commercial production of fusion-based electricity.
Thousands of engineers and scientists have contributed to the design of ITER since the idea for an international joint experiment in fusion was first launched in 1985. The ITER Members—China, the European Union, India, Japan, Korea, Russia and the United States —are now engaged in a 35-year collaboration to build and operate the ITER experimental device, and together bring fusion to the point where a demonstration fusion reactor can be designed.
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Forwarded from Aries
Power plants today rely either on fossil fuels, nuclear fission, or renewable sources like wind or water. Whatever the energy source, the plants generate electricity by converting mechanical power, such as the rotation of a turbine, into electrical power. In a coal-fired steam station, the combustion of coal turns water into steam and the steam in turn drives turbine generators to produce electricity.
The tokamak is an experimental machine designed to harness the energy of fusion. Inside a tokamak, the energy produced through the fusion of atoms is absorbed as heat in the walls of the vessel. Just like a conventional power plant, a fusion power plant will use this heat to produce steam and then electricity by way of turbines and generators.
The tokamak is an experimental machine designed to harness the energy of fusion. Inside a tokamak, the energy produced through the fusion of atoms is absorbed as heat in the walls of the vessel. Just like a conventional power plant, a fusion power plant will use this heat to produce steam and then electricity by way of turbines and generators.
Forwarded from Aries
The heart of a tokamak is its doughnut-shaped vacuum chamber. Inside, under the influence of extreme heat and pressure, gaseous hydrogen fuel becomes a plasma—the very environment in which hydrogen atoms can be brought to fuse and yield energy. The charged particles of the plasma can be shaped and controlled by the massive magnetic coils placed around the vessel; physicists use this important property to confine the hot plasma away from the vessel walls. The term "tokamak" comes to us from a Russian acronym that stands for "toroidal chamber with magnetic coils."
First developed by Soviet research in the late 1960s, the tokamak has been adopted around the world as the most promising configuration of magnetic fusion device. ITER will be the world's largest tokamak—twice the size of the largest machine currently in operation, with ten times the plasma chamber volume.
First developed by Soviet research in the late 1960s, the tokamak has been adopted around the world as the most promising configuration of magnetic fusion device. ITER will be the world's largest tokamak—twice the size of the largest machine currently in operation, with ten times the plasma chamber volume.
Forwarded from Aries
Fusion is the energy source of the Sun and stars. In the tremendous heat and gravity at the core of these stellar bodies, hydrogen nuclei collide, fuse into heavier helium atoms and release tremendous amounts of energy in the process.
Twentieth-century fusion science identified the most efficient fusion reaction in the laboratory setting to be the reaction between two hydrogen isotopes, deuterium (D) and tritium (T). The DT fusion reaction produces the highest energy gain at the "lowest" temperatures.
Twentieth-century fusion science identified the most efficient fusion reaction in the laboratory setting to be the reaction between two hydrogen isotopes, deuterium (D) and tritium (T). The DT fusion reaction produces the highest energy gain at the "lowest" temperatures.
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