| viXra.org > Thermodynamics and Energy > 2001 |
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| viXra.org > Thermodynamics and Energy > 2001 |
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[6] viXra:2001.0570 [pdf] replaced on 2020-02-09 23:14:41
Authors: Xia CAO
Comments: 23 Pages. This is a new discovery. Patents have been filed to protect the reported inventions.
Scientific discoveries have given us a much better understanding of the world. Can you imagine that when an acrylic sheet is tapped by hand, the generated electromagnetic field can produce a voltage of 3600 V? The general theory of relativity predicted the existence of gravitational waves. Here, we found that two objects can generate electromagnetic fields under forces, and high frequency interaction can generate electromagnetic waves. We have deduced that gravitational waves generated by the collision of celestial bodies are the same as the electromagnetic field generated by the collision of small stones. When two small stones collide, the generated electromagnetic field can drive the LED. Wind blowing objects was used to verify that there would be electromagnetic field generated by friction between the object and atmosphere. We speculate that there must be super strong electromagnetic field produced by the friction between the earth surface and atmosphere because of the ultra-high-speed rotation and revolution of the earth. The electromagnetic field generated by friction between the fiber cloth and air can drive 1350 LEDs wirelessly, which indirectly verifies that how strong the electromagnetic field generated by the rotation of earth will be. The generated energy radiates outward in the form of electromagnetic waves and is distributed throughout the out space. This may lead to the formation of earth's ring-shaped gravitational waves. On this basis, it is inferred that the gravitational waves should exist anywhere, anytime and in everything. In addition, several power generation devices including self-powered board for portable devices were designed based on the discovery. These new findings will have far-reaching impact on a range of research fields such as physics, new energy and astronomy.
Category: Thermodynamics and Energy
[5] viXra:2001.0517 [pdf] submitted on 2020-01-24 02:59:39
Authors: Jeremy Dunning-Davies, Richard Lawrence Norman
Comments: 9 Pages.
The link between the Second Law of Thermodynamics and the claim that entropy can never decrease is examined afresh in the light of the fact that the entropy of classical thermodynamics does, in fact, decrease on many occasions. Traditional attempts to deduce the idea of entropy decrease will be looked at anew and conclusions will be drawn over the existence, or otherwise, of a general rule. Within the historical context offered, a mechanism for Bearden and Bedini's demonstrated over-unity energy gains is proposed that is based in the electromagnetic science of Maxwell. Implications for thermodynamics are then deduced.
Category: Thermodynamics and Energy
[4] viXra:2001.0367 [pdf] submitted on 2020-01-19 04:16:27
Authors: George Rajna
Comments: 35 Pages.
Scientists at the Max Planck Institute for Polymer Research (MPI-P) in Mainz and the University of Bayreuth have now jointly developed and characterized a novel, extremely thin and transparent material that has different thermal conduction properties depending on the direction. [23] Heat pipes are devices to keep critical equipment from overheating. They transfer heat from one point to another through an evaporation-condensation process and are used in everything from cell phones and laptops to air conditioners and spacecraft. [22] Now, researchers from the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) have developed an algorithm that can discover and optimize these materials in a matter of months, relying on solving quantum mechanical equations, without any experimental input. [21] Researchers at the University of Illinois at Urbana-Champaign have developed a new technology for switching heat flows 'on' or 'off'. [20] Thermoelectric materials can use thermal differences to generate electricity. Now there is an inexpensive and environmentally friendly way of producing them with the simplest tools: a pencil, photocopy paper, and conductive paint. [19] A team of researchers with the University of California and SRI International has developed a new type of cooling device that is both portable and efficient. [18] Thermal conductivity is one of the most crucial physical properties of matter when it comes to understanding heat transport, hydrodynamic evolution and energy balance in systems ranging from astrophysical objects to fusion plasmas. [17] Researchers from the Theory Department of the MPSD have realized the control of thermal and electrical currents in nanoscale devices by means of quantum local observations. [16] Physicists have proposed a new type of Maxwell's demon-the hypothetical agent that extracts work from a system by decreasing the system's entropy-in which the demon can extract work just by making a measurement, by taking advantage of quantum fluctuations and quantum superposition. [15] Pioneering research offers a fascinating view into the inner workings of the mind of 'Maxwell's Demon', a famous thought experiment in physics. [14]
Category: Thermodynamics and Energy
[3] viXra:2001.0325 [pdf] submitted on 2020-01-17 05:29:43
Authors: George Rajna
Comments: 32 Pages.
Now, Joohyun Lee and Il Doh of the Korea Research Institute of Standards and Science, in Daejeon, South Korea, have developed a tiny device that measures otherwise undetectable heat changes. [21] An international team of physicists, materials scientists, and mechanical engineers has confirmed the high thermal conductivity predicted in isotopically enriched cubic boron nitride, the researchers report in the advance electronic edition of the journal Science. [20] Thermoelectric materials can use thermal differences to generate electricity. Now there is an inexpensive and environmentally friendly way of producing them with the simplest tools: a pencil, photocopy paper, and conductive paint. [19] A team of researchers with the University of California and SRI International has developed a new type of cooling device that is both portable and efficient. [18] Thermal conductivity is one of the most crucial physical properties of matter when it comes to understanding heat transport, hydrodynamic evolution and energy balance in systems ranging from astrophysical objects to fusion plasmas. [17] Researchers from the Theory Department of the MPSD have realized the control of thermal and electrical currents in nanoscale devices by means of quantum local observations. [16] Physicists have proposed a new type of Maxwell's demon-the hypothetical agent that extracts work from a system by decreasing the system's entropy-in which the demon can extract work just by making a measurement, by taking advantage of quantum fluctuations and quantum superposition. [15] Pioneering research offers a fascinating view into the inner workings of the mind of 'Maxwell's Demon', a famous thought experiment in physics. [14] For more than a century and a half of physics, the Second Law of Thermodynamics, which states that entropy always increases, has been as close to inviolable as any law we know. In this universe, chaos reigns supreme. [13] Physicists have shown that the three main types of engines (four-stroke, twostroke, and continuous) are thermodynamically equivalent in a certain quantum regime, but not at the classical level. [12]
Category: Thermodynamics and Energy
[2] viXra:2001.0259 [pdf] submitted on 2020-01-14 10:39:29
Authors: George Rajna
Comments: 31 Pages.
An international team of physicists, materials scientists, and mechanical engineers has confirmed the high thermal conductivity predicted in isotopically enriched cubic boron nitride, the researchers report in the advance electronic edition of the journal Science. [20]
Thermoelectric materials can use thermal differences to generate electricity. Now there is an inexpensive and environmentally friendly way of producing them with the simplest tools: a pencil, photocopy paper, and conductive paint. [19]
A team of researchers with the University of California and SRI International has developed a new type of cooling device that is both portable and efficient.
[18]
Category: Thermodynamics and Energy
[1] viXra:2001.0039 [pdf] submitted on 2020-01-03 10:56:02
Authors: Gum Chol Ri, Un Chol Ri ,Yong Hwan Kim, Chol Hak Pak
Comments: 9 Pages.
This paper presented a problem to establish the energy system for the building by using renewable energy reasonably.
In this paper, based on the consideration of the smart grid, scientific and technical problems were dealt with in applying power generated by using renewable energy to buildings in connection with the smart grid.
Besides, a new structural system was proposed for the application of the additional renewable energy building in connection with the smart grid
Category: Thermodynamics and Energy
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