A0785: A0785: What is there to say about the ten dimensions of your universe? – Part 13
Today’s entry will elucidate everything you need to know to understand how electrodynamics works in conjunction with electromagnetism and explain it as comprehensibly as it will be taught to students over many decades as the new physics enters your scientific circles, because the new physics reveals with ease everything that still seems hidden to those in the know today. If we now briefly summarise what we have already learned about potential equalisation, we can seamlessly follow this up to reveal the greatest mystery of the modern age by explaining to you clearly what this current flow actually is and what you can do better once you understand the new physics. If you look at an accumulator, you can draw current from the accumulator, but you can also recharge it with current. If you have done this many times, the accumulator will become more and more ineffective, so that one day you will have no choice but to change the accumulator. Let’s start our summary by explaining how to charge an accumulator with energy.
Charging an accumulator
When you charge the accumulator at a given charging station, the following happens: The accumulator has two poles, one pole is charged and the other is not. What do we mean by this, we ask? Well, we already know how energy causes the consciousness fractal in the dimension of quantum consciousnesses to receive an adjustment of the value that says how much energy the consciousness fractal can provide. When the energy flows into one of the two poles, that pole becomes charged with energy, so to speak. To make it more precise, we will now get technical. The pole of an accumulator is made of a conductive material and this material is charged. The atoms corresponding to the pole are enriched with energy, so that via the atomic shells the energy finds its way into the energy fractals on the astral plane, which are directly connected to the fractal of consciousness in the dimension of quantum consciousnesses. An energy fractal on the astral plane will create a mental bridge so that the energy level of the associated consciousness fractal is increased. As long as the accumulator is charged, the mental bridge to the consciousness fractal will exist and increase the energy level of the consciousness fractal. At some point, the charging capacity will have reached a limit, which we will discuss later in further entries on this topic, but let us assume that the charging will stop. The energy supply is cut off and what happens now is what is called electromagnetism, because now the potential difference ensures that the excess energy is drawn away from the consciousness fractal by electromagnetism and flows towards the mundane world. The setting in the consciousness fractal wants to take on the value again that it received when the determination ensured that this consciousness fractal ultimately became existent as an atomic shell in the mundane world. The setting will now ensure that the energy fractal on the astral plane will take the excess energy from the astral plane and thus appear to shine more. This shining is passed on to the atomic shell on the mundane world, so that the feedback of the excess energy ensures that all the atoms of the charged pole now shine. When we use the term shine, we mean it because the atoms of the pole are now enriched with high frequency energy. The accumulator capacity is now stuck in the charged pole of the accumulator and cannot be used because it lacks something important. This importance is the need to balance its excess energy as a potential equaliser. What the overcharged consciousness fractal in the dimension of quantum consciousnesses undertook when the mental bridge fell away, the charged pole now also wants to undertake, but at present the charged pole cannot find a counterpart. When a counterpart is found, the excess energy is passed on so that the charged pole and the counterpart can adjust their values for the energy value. We deliberately do not say equalise because that can only happen if the opposite pole were your planet. If the charged pole found a counterpart, then a feedback will ensure that the energy values adjust, because the counterpart actually also needs a counterpart again. If there is a counterpart, then there are two different potentials because the charged pole usually has a higher energy value than the counterpart pole. If the opposite pole has the same number of atoms as the charged pole, each atom can, so to speak, absorb half of the energy surplus that an atom of the charged pole has. If now half of the excess energy is transferred to the opposite pole, then the potential equalisation has taken place. If now another opposite pole is introduced into the accumulator, it will again receive a part of the surplus energy that the two previous poles still possess, so that now, however, only one sixth of the energy is transferred for the energy equalisation. What do we learn from this, we ask? Your present storage technology is absolutely inefficient because you usually use only half of your available energy. If you were to develop mechanisms that would take into account that much more energy can be used in each discharged battery than is currently thought, you would be able to do much more with a charge of energy than you do now. Now we want to reveal what the so-called current flow actually represents.
When a lamp lights up, something happens that you cannot imagine at all
If there is an opposite pole to the charged pole, then a physical bridge must now ensure that the excess energy can flow in the charged pole, whereby this expression is used completely wrongly. If the metallic pole with all its energy shells is enriched with the excess energy, then each atomic shell wants to regain its given energy level. The overcharged atomic shell of an atom now receives help in the form of another atomic shell that does not belong to the actual object of the overcharged pole, so that when a conductive line is connected to the overcharged pole, an energy balance takes place. The added conductive line consists of a number of atoms that basically do not seem to be overcharged with extra energy, so that now the pole and the atoms of the new conductive line initiate an exchange of potential among themselves. Now not only does the overcharged pole have more energy than it should have, but now the energy is also fairly distributed in the new atomic shells of the new conductive line. The atomic shells of the pole still have excess energy in them, but not as much as before. Since more atomic shells can now share the same amount of energy, the energy balance that now follows will also be less than if hardly any or no further atomic shells were involved, because the potential balance always needs a counterpart and the difference between these two poles also determines the energy that can then be used to light a lamp. If you add a lamp between the now new and now divided conductive line, then the excess energy is divided again, so that the potential equalisation – when it then takes place – can transfer less energy again, because more and more atomic shells will share the excess energy. The charged pole, the conductive line and the inside of the lamp have shared the surplus energy depending on the settings of the atomic shells, although no counterpart has yet ensured that the potential equalisation could actually take place. What happens now will surprise you because even those who know the subject have never understood what exactly happens when excess energy is consumed. Now imagine the following scene in your mind’s eye and you know exactly what happens when a light bulb seems to shine. Except for the counterpart, all atomic shells have received an excess of energy. If there is now already an excess of energy in the filament, why does the wire not shine, we ask? Because the extra energy has not yet shone through! Yes, you have understood correctly. The filament is not glowing because on the astral plane the extra potential energy has not yet been used. Didn’t we say that the extra energy is in the overcharged pole? Yes, but only as a setting, because now the atomic shell has been given potential, but the energy fractal on the astral plane has not yet been charged with using the energy of the astral plane to make the atomic shell shine. We say shine deliberately because that is exactly what it is. Plasma shines but it does not physically exist because plasma holds many properties that will affect your environment. When energy fractals are energised on the astral plane, these energy fractals shine and when they have an imprint in the mundane world in the form of an atom, the associated atomic shell shines at the level that the energy fractal specifies. Can an energy fractal shine through to the mundane plane if it has no imprint of an atom, we ask? No, because energy fractals only ever exist on the astral plane and only when they have received enough energy of their own – so that this amount of energy has caused an imprint of an atomic shell to exist in your world – only then can this atomic shell shine. When you charge an energy fractal with energy, the associated consciousness fractal is always energised and when the flow of energy stops, the mental bridge is interrupted and the energy returns to the astral plane because the attitudes belong to a certain type of energy that is either transferred from the astral plane to the dimension of the quantum consciousnesses or vice versa. Your thought energy only sets this process in motion, but your thought energy is not directly deposited in the fractal of consciousness, but only something similar to it, which we will describe in more detail when the time seems ripe. When an atomic shell shines, it emits high-frequency energy pulses. When the atomic shells begin to shine at high frequency because the counterpart has now initiated potential equalisation, then the atomic shells will shine and as energy is thereby transferred, the molecules around the filament will be made to shine. The high-frequency energy impulses that emit the glow of the filament are taken over by the surrounding molecules, which in turn are subjected to constant feedback by the energy transmission, so that they themselves constantly receive impulse shocks of their own energy fractals through the frequency of the glow. Due to the high-frequency transmission of the energy impulses by the energy of the glow filament, there is a constant exchange of potentials in the surrounding molecules. They are charged with extra energy by the high-frequency glow of the filament and since a frequency also involves a reversal of polarity, there will be a feedback of the transmitted energy of the surrounding molecules, which will then begin to glow as a result. We will soon explain the difference between a glow and a shine in detail in the series on Metamaterials.
If potential equalisation takes place, why is the excess amount of energy not equalised in one go, but depending on the construction of the so-called battery, we ask? Because the potential equalisation can also be inhibited. If the battery is constructed in such a way that there is a medium that the excess energy has to pass through first so that the counterpart can also negotiate the potential equalisation, then this will slow down the exchange. We want to talk about the heating of the battery components, because this will be very interesting for you. Why can a cable heat up when equipotential bonding is taking place, we ask? If you remember again that the potential is first divided between the participating atomic shells of the battery, then a very thin cable of the same material will have fewer atomic shells than a cable of the same length and larger cross-section. If the potential energy is negotiated for a thinner cable, then the atomic shells receive more potential energy than the comparatively larger number of atoms of the thicker cable. Now, when the counterpart initiates potential equalisation, the energy fractals of the thinner cable will receive more energy from the astral plane so that they can shine more intensely. The shining will produce X-Rays because the material is excited at certain frequencies and these X-Rays are capable of starting a chemical reaction in solids, which at this time you call heat, but if you understood exactly what this so-called heat is, you could also see that the so-called heat is nothing more than the shining of atomic shells at a particular frequency. What can you do with this new knowledge, we ask? If you ask yourself this question seriously, then two options become apparent that you could choose. The first option has to do with how you optimise your batteries and the second option has to do with how you reconcile your physical interactions with the knowledge of the new physics. If you are a physicist, you have already realised the potential of our revelations, because not only can you now determine the missing factors in your formulae and equations, but you have now been given knowledge that can quite easily describe in formulae and equations how to explain your observations today, for which you have put forward many theories without understanding the bigger picture behind them. We give you an example, even though the writer is not yet ready to grasp the implications of it. When you observe stars, the red shift over time indicates how fast the star is moving away from your observer position. The star does not glow, it shines. If it were glowing, then all your calculations would be correct, but if you assume that the star is shining, then physically quite different laws apply. If you assume that a star is shining, the so-called red shift will give different values and they would then be in accordance with observations that at present give contradictory results. The rate at which the Universe is expanding is different from what you assume today, so any material compositions you derive from this red shift will be wrong, so you are basing your claim of how old your Universe should be on false grounds.