Directory:PaulL:Synopsize
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Main Page • Foundation • Thermodynamics • Details • Energize • Data • Synopsize • Computer Simulation • Starting your own Research
- Status
- This project was commenced publicly on Feb. 28th 2005.
THIS PAGE IS LOCKED FROM EDITING. If you have a change to recommend, then please send me an email at Energy_Mover-owner@yahoogroups.co*m (remove the star). If you are doing research in this field then please add to the Research and Development Questions web page.
This page is a continuation from Data
We still need our Sun. This research points to very plausible technology that *Moves Energy.* It is not the intentions of this researcher to violate the Laws of Thermodynamics. Such research is dealing with atomic energy exchanges. The atoms in magnetic material, due to the Intrinsic Electron Spins, are magnetically aligned to scores of others due to a minute applied magnetic field caused by electricity running through wire. As the current in the wire decreases, the applied magnetic field decreases. Due to thermal heat, a neighboring particle or atom will force the Intrinsic Electron Spins to change alignment. When the alignment changes, this results in a decrease in net magnetic field. Basic laws of Electrodynamics claim that such a change in magnetic field requires energy. For example, if you want to picture this energy exchange on a large scale, take two magnets and allow them to pull together. Once they are together and aligned magnetically, then try to flip one of the magnets around. You’ll notice it takes energy. At the atomic level, such energy does not disappear. This resulting collapse in magnetic field adds energy to the coil in the form of an induced voltage in the direction of current. That’s a basic law of Induction. In totality this is all "force and velocity" in action (Kinetic energy) that takes energy from the neighboring particle. This is a process that occurs all the time in magnetic materials.
Lets consider a small cubic area of matter of several atomic diameters. Over time lets study the total amount of Kinetic energy. We will notice that the net Kinetic energy fluctuates in that subatomic cubic area of space. So on that atomic scale, thermal energy actually moved outside of that small area. Indeed this occurs on an atomic scale. An atom that had kinetic energy, as it was traveling, then bumped into a neighboring atom and passed on some of its kinetic energy.
The premise of my research claims that energy, on an atomic level, can be removed from matter at room temperature by means of Electrodynamics on an atomic level. Now this is a balanced process; i.e., energy is transferred to the material when the fields increase, and as mentioned, energy is transferred away from the material as the fields decrease. In more specific complex situations involving inhomogeneous fields, etc. a process similar to a diode action can take place. Such a process is more difficult to explain in a few paragraphs. This process becomes apparent during computer simulations. The computer user may execute the code line by line. This is called stepping. While stepping through the code the user may analyze the energy levels in play. For example, such computer simulations performed on such a device as mentioned in this research results in moving ambient heat energy from the magnetic material to the coil in the form of electricity by the action of Induction. Please refer to the Details page to view the provided animated images of such a plausible free energy machine.
This page continues to Computer Simulation
