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New research on the kitchen table. Try this again
New research on the kitchen table
Try this again
Лим Ворд
© Лим Ворд, 2018
ISBN 978-5-4490-8462-0
Created with Ridero smart publishing system
Experiments – forgotten, but pretty
First of all, the author wishes to present to the reader the most ancient of his experiments. It is possible that some of this will interest you.
Radio receiver under the hood
So, we take a conventional radio receiver on batteries, set it to any wave and output the volume to the maximum. The receiver (see Fig.) Is located on a high dielectric stand, approximately in the center of the cavity of the structure, made up of several steel, cast-iron and aluminum pipes. The diameter of the inner tube is 30 cm, the height is 50 cm. From above and below all this is tightly closed now with steel plates of 50 mm, with the addition of aluminum and brass shields.
The structure is grounded.
As we conserve the receiver, the wave gets lost, and, instead of pleasant music, we hear only white noise.
According to all the provisions of physics, no external radio waves are able to break through to the oscillatory circuit of the receiver.
With the help of a simple device, a transformer and two discharge electrodes, we form an electric spark. The receiver will immediately respond with a characteristic creaking change in the tone of the noise.
What happened? After all (we will open the textbook of physics) even so-called. called the Faraday grid, incomparable with thick-walled metal screens, according to scientists, successfully absorbs the entire spectrum of radio waves.
Assumption 1. Electrons in a metal simply do not have time to synchronize their own reciprocating motion with incoming waves. But, only in this way they screen the radio wave.
Assumption 2. The receiver superheterodyne itself emits radio waves. Reflecting in a confined space, the waves constantly rebuild the oscillatory circuit. Thus, the receiver every minute runs through the entire range of settings, and is able to receive radio waves that have penetrated through the shielding screen.
Assumption 3. The electric spark and the oscillating circuit of the receiver, in this position, randomly emits radio waves, are similar to each other. Objects that have approximately the same spectrum of radiation – absorption communicate with each other in a special way, in addition to the laws of physics known to science. Changes in one object (A) are immediately responded to in another (B).
The receiver with autonomous power is in a steel earthed cylinder. The spark discharge penetrates the metal layers.
Speed and gravity. Empirical research
Imagine that you have an orange in your hand. If you find the power to throw it parallel to the surface of the Earth at a speed of 8 km. with., he will become a companion of our planet and, somewhat simplistically speaking, will lose weight.
Suppose you dropped the fruit at a rate of only a few meters per second. The effect of reducing weight again, will take place, although these changes are measured in fractions of a milligram.
Imagine now that your friend is throwing an orange back. Both of you are standing on a platform of sensitive scales. Will, for the time of this game, the system you-friend-orange, in general, easier?
The simple becomes very complex very quickly. Some additional, more obvious schemes represent that “yes.”
All physical bodies consist of a myriad of “oranges” – elementary particles. The average velocity of oscillatory motion of the latter, at twenty degrees Celsius, is about three hundred meters per second. As the temperature increases, the speed of movement increases.
So, we can expect that with a decrease in body temperature (in a closed system), its weight will increase slightly. And, with increasing T, the pressure on the support will gradually disappear.
To calculate more accurately, it is necessary to combine some formulas for bodies moving along a circle, and also the dependence of the velocity of molecules (acting here as “satellites”) on temperature. Friends, I once did all this, but after so many years from the time of the failed publication in “TM”, much has been forgotten. Try it yourself. The result, in general, is quite interesting. I myself did not conduct full-scale experiments, but I used the data, alas, to measure the body weight of a person before and after his death. The difference is about 10 grams (weight is added).
And the results of calculations, for a body weighing 80 kg, cooling down from 40 C, to 20 C, fully correspond to this.
Experiments with a flywheel unwinding to a certain speed are also known. The weight of the top is reduced.
In this case, the movement of the orange, sorry, is closed in a ring. Nothing more, in fact, does not change.
And, the results of calculations for the top-orange are quite in line with expectations.
…The next simple, complex visual construction. Space station, satellite, … a physical body, sweeping along the surface of the Earth at a speed of 8 km. from. as if lose weight. Well, an object that rushes directly to the center of the planet, from the depths of the Cosmos, let’s set it at a speed of 20 km. from. – What happens to him? Does the Earth, with its gravity, add extra speed to it? Are you sure? Well, if this body moves even with an acceleration above 9.8 m. sq. m. (acceleration of free fall) – also add speed?
There is a feeling that in the celestial mechanics everything is not so simple. Objects moving near planets with velocities are much higher than the acceleration of free fall (at a given distance from the center of mass) of the latter, practically do not obey the influence of “local” gravity.
Perhaps this phenomenon caused many of the failures of Soviet cosmonautics. For example, of the ten missiles launched with the moon, Lunokhods, only two of them reached the surface of Selena. With Mars, the situation is much worse. Most of the vehicles flew past these large celestial bodies.
American scientists are less conservative people, and among their practitioners there are those who could accept the need to amend the known laws of Newton.
…Gravitation depends on the mutual speed of interacting bodies. To some extent this position can be tried to reveal at the level of classical mechanics. But, perhaps, to clarify the details, it is better for us to plunge into the depths of quantum physics.
Rotating rotor
The Mössbauer effect… Particles frozen to the vicinity of the absolute zero of the crystals lose the opportunity to exchange quanta in the event that their mutual velocity exceeds several centimeters per second. The levels of radiation-absorption cease to coincide, and the objects simply “lose each other from view.” in a not frozen state, things interact only because the microparticles that make them constantly, fairly quickly, move. Thus, a quantum can almost always meet a particle suitable for it in the spectrum, and be absorbed by it.
Recall that the average velocity of molecules at room temperature is about 300 ms, electrons in the electron gas of metals are of the order of one hundredth of the speed of light.
All electrodynamics is based on the fact that charged particles exchange gluins, and so on. It is not entirely clear whether there are energy levels in this case, but, yes, it may be. And, therefore, the effectiveness of the interaction here also depends on the mutual velocity of the microparticles.
Therefore, if we move objects relative to each other at a speed, say, 1 km. the interaction of atomic nuclei consisting of positive protons and neutral neutrons will be violated in the first place. Lighter and faster electrons will lose only a thousandth of the total interaction, and will stay in touch with each other.
In general, the body that has acquired speed above the Earth’s surface is 1 km. with., simultaneously receives and a high negative charge. To calculate the total balance of the forces of interactions “electron-electron”, “proton-proton”, “proton-electron” is rather difficult, but, on the sly, the interaction of negative charges prevails. Consequently, a shell with such a high initial velocity will push away from the Earth – what should be taken into account in the ballistic tables.
Simultaneously with this projectile, a charge flows, a cloud of plasma is formed. This is indeed the case, according to the recollections of many eyewitnesses: this phenomenon can not be explained only by heating the air.
When an object collides with a target, an imbalance arises between the number of protons and electrons. In this case, the disc is subjected to a special action of internal forces, in the process of self-destruction, releases additional energy. Here the special attention, friends, are subject to observation and investigation of the artillery officer VV Yavorsky. The thermal energy emitted by the projectile when it hits the shield is sometimes four times the kinetic energy. In addition, with accelerated photography, it is clear that even before the projectile comes into contact with a metal screen, a flash like lightning occurs between them.
…The so-called discs or, otherwise, John Searle’s generators are known. The general meaning (exemplary first of all, in this case) is that metal discs rotating at high speed emit powerful electrical discharges, jam the radio receivers next to them and jump upwards.
The author’s own experience is not so effective. Two electric motors, located on a dielectric stand, are connected by shafts. The stators are short-circuited, i.e., essentially metal cylinders.
One of the motors is included in the network. The second motor is not connected. We measure the voltage between its body (including the stator), and the Earth.
When the rotation starts between the Earth and the motor, a voltage of 1—2V appears. When the voltage is turned off, it gradually decreases to zero.
In a simplified version, only one motor is used, and the same voltage change is measured with a deceleration of the rotation during a trip.
The meaning of what is happening. According to the above arguments, the force of interaction between the Earth’s protons and stator protons sharply decreases, while between the electrons of these two bodies remains the same. There are many nuances here, but electrons flow from the motor surface into space. The voltmeter registers the variation of the cylinder potential – although, of course, much less than in experiments with Searle disks.
1. Dielectric stand, 2. Plug-in motor 3. Coupling between shafts. 4. A motor whose stator is used as an analog of Searle’s disk, 5. A voltmeter, 6. Earthing
…Unfortunately, there is no picture of Generator John Searle available on the Web. The general meaning. On the stator are located magnets, defined poles to the axis. The rotor is studded with magnets with poles outwards. Everything, as if, is simple. As soon as you give the rotor a certain speed of rotation, this “disc” starts to rotate by itself.
We know that the magnetic energy is conservative. If, say, to place a magnet under the veneer, it can accelerate the steel ball located on its (horizontal) surface. But, after a certain point, this ball can not move any more. The same magnet returns it back.
But, how then, for example, does the “gravitational catapult” known in space work? A certain space station approaches, like an example, to Jupiter, is captured by its gravitational field, acquires an additional velocity of the planet’s motion around the Sun. Then it is somehow freed from the influence of the planet’s gravity and, with a gain in energy, flies to other bodies of the Solar System.
Another example is “cathode rays.” The electron flies to a charged positively plate, accelerates it, then passes, and for ever leaves. The reverse action of the anode, as if, is somewhat weaker than the primary one. If we take our example with a magnet and a ball, it would turn out that this ball would jump a magnet, lose contact with it, and roll on. If the ball (or other magnet) is fixed on the disk next to the magnet, we would get perpetual motion…
…We can try to take as an example a ram jet engine. Essentially, this is a pipe open at both ends. Inside the fuel is burnt. There is no asymmetry. Until then, it’s still no engine. The energy of the kerosene is wasted, and nothing is set in motion by the ramjet.
But, if we give this pipe a considerable speed (comparable, it seems, with half the speed of sound), an amazing asymmetry arises, and the engine produces decent traction. The analogy, of course, is doubtful, but there are not any others yet.
As we have shown above, at certain mutual speeds, physical bodies change the strength of mutual electromagnetic, electrostatic, and possibly gravitational interactions. According to the e-mail, the quantum theory of gravitation, the interaction here is also transmitted by some, subtle particles. It is unlikely that this interaction is very different from other fundamental forces. The coincidence of energy levels is important everywhere, and this is impossible at high relative velocities of interacting bodies.
Like friends, you… it’s very difficult for us to get to know… establish a strong bond with someone, if you do not drink coffee motionless, next to each other, and in a hurry, as usual, you pass by…
So. The magnet accelerates the ball. The speed becomes so great that the force of interaction decreases to a large extent… and the connection breaks. But, the speed in this case should be very significant. It can be calculated only experimentally.
The primary promotion of the disk, the speed to enable the “ramjet” is simply necessary.
Where can magnets take their energy from? Probably, from the ordered circulation of electrons around the atomic nuclei, in numerous magnetic domains-grains. The velocity of revolution of electrons along the orbitals is very high (appreciable fraction of C). Probably, electrons will go to the lower levels, emitting some radiation. In Searl’s experiments, it was as if it was constantly observed. Maybe the magnets will cool down or degauss.
All this can be revealed only by new natural (and presented to the general public) experiments.
Simplified image of the Searl generator. On the outer ring-stator are shown magnets, with the same poles facing inwards. They are answered by the rotor magnets. In fact, there are a few dozen magnets. At a certain rotational speed of the rotor, the system stands on “self-catching” and, as the inventor notes, rotates due to some of its internal sources of energy.
Sometimes it comes back (high quality energy)
…How to collect scattered in space, as if already falling asleep energy? Obviously, there are natural natural processes that increase its quality to its original value.
These are not some complicated devices. Everything happens by itself. You just need to be able to correctly see.
The boiled kettle on the table gives energy to the space – to the table, to the air streams, etc. As time passes, it cools down. The motion of molecules is evenly distributed in the environment. The energy of high order disappeared, replaced by a uniform thermal background. Is it possible to reverse the process? Will the impulses from the environment of the teapot be transferred in a particular case, will it boil right on your kitchen table?
This is how it should be if in nature, from the beginning of time, there is a cycle of energy.
One of the author’s first publications on this topic is an article in “TM”, No. 4, 2000:
“What is the difference between an object of the macrocosm – a monolith – from a cloud of dust obtained as a result of its long grinding and subsequent shaking? Well-known: the area of contact with the environment of another phase, for example, with gas. That is why the chemical reactions that occur in powders are completely unaffected by monoliths, iron filings burn in the air, whereas an iron nail, except in pure oxygen …
Dusty laser?
But the question is: what happens when the monolith is grinded or, conversely, how does the dust coalesce again into a monolith with a radiation-absorption spectrum? Let’s help the laws of quantum physics.
In monolith, the spectrum runs through all the energy levels, theoretically, as many as the atoms in the body. In a gas, individual atoms radiate independently, on a few levels. But when the neighboring atoms appear, the levels shift so as not to repeat each other, the prohibition principle introduced at the beginning of the 20th century works. Wolfgang Pauli: there can not be interconnected atoms, the energy parameters of which are completely the same.
But the powder is an intermediate state between the gas and the solid. Apparently, a sharp boundary, on which the properties change spasmodically, can not be carried out. And accordingly, the spectrum of the dust cloud, as the particles are fragmented, will approach the gas spectrum.
But what happens if you thicken it to the volume of the original monolith?
When merging, say, a hundred particles, each energy level will take at once one hundred atoms. To restore the order adopted in the microcosm, each of these supersaturated levels will tend to split into a hundred isolated spectral lines. The most natural way to restore the energy hierarchy for atoms of a newly formed monolith is to radiate a certain number of electromagnetic quanta. Consequently, the condensed cloud of dust will become generally colder than the surrounding environment.
Are we humans the same hubs? Than our cells are not isolated “motes” separated by membranes? But the permeability of membranes is constantly changing. And are there many unrelated properties of living organisms that are not associated with such a unification of many millions of “dust particles”?”
Continuation – in the article “Energy concentrators”, “TM” No. 6, 2002, already based on practical, not mental experiments.
1. cabinet with thermal insulation2. Dewar vessels3. continuous medium (water)4. porous medium5. electronic thermometers (error not more than 0,02С)6. temperature sensors
Two vessels – one with a porous medium, the other – with a solid, are located in a thermally insulated cabinet. They have thermal sensors; the temperature inside is measured every 20 minutes.
It was found out that the temperature in a container with a granulated medium (wet sand, etc.) varies abruptly, with considerable amplitude. The solid medium gives a very flat temperature graph, without bursts and any periodicity.
Porous, granular, otherwise – ordered matter has the property of ordering – to collect in space and time, energy. Probably, this property manifests itself on different scales. Local heating can also occur in a handful of sand, earth, porous clay, only one or two degrees, and in large areas, in square kilometers. The temperature can increase by tens, hundreds of degrees, possibly accompanied by radioactive emissions. So the energy of a high level comes back to the world.
In a certain way ordering matter, it is possible to achieve a predictable ejection of heat (or cold), in certain areas of the created system. Covered by feedback, the system creates a “cold-heat” pulsation; from this one can obtain a steady stream of energy. The ordering can be performed on macroscopic (fractions of a millimeter) and micro-levels (the distance between the atoms of the crystal). In the latter case, it is possible to achieve not intermittent flicker, “eternal radiance”.
In the first approximation, the concentration system looks like the organization of flows of a homogeneous, initially disconnected substance to some common point, a kind of “heart” or a quantum cavity, followed by separation.
Some successes in this, perhaps even intuitively realizing the essence of the process, were achieved by American researchers Fleischman and Pons. They are known to conduct electrolysis of heavy water on palladium electrodes. Their idea – the molecules of the hydrogen isotope accumulate in the crystal lattice of the metal, as closely as possible – and interact. As a result of the “cold nuclear fusion” (NNS), an anomalous heat release occurred (four times higher than the calculated one), but, in addition, there was no neutron radiation associated with it.
In the end, experiments – although they were reproduced in other laboratories, were abandoned, they were almost forgotten. But, with a satisfactory theory: “A structured substance structures energy, creates an order around itself,” they can be revived, put on an appropriate, correct pattern. Hydrogen atoms were collected in one small volume, and therefore they were forced to radiate (relatively soft) photons from their upper energy levels. Isotopes, the synthesis of light nuclei, radiation – this can be forgotten. New reactors of Eternal Motors are loaded with any, not radioactive, but – structured substance.
Note: A structured body (massif) is a cluster of clusters (dust grains) of a substance of equal shape, composition that is some distance from each other in a semitransparent medium or a vacuum. An additional structure in time, give periodic rendezvous and separation of particles – which is like breathing or pulse.
The author reproduced the experiments of Fleischmann and Pons at home, replacing heavy water with ordinary tap water, and palladium electrodes with sand.
It turned out this article:
Electrons get tired?
“Some of the fundamental laws of physics are so simple and obvious that no one doubts their justice, and no one is involved in their verification. In particular, this applies to Ohm’s law, according to which the direct current in the circuit (in any case at its low density) is equal to the voltage divided by the resistance: I = U / R. This is followed by other rules of electrical engineering. For example, according to the Joule-Lenz law, the heat W allocated to the resistance R is directly proportional to the voltage drop across it U, the current I and the duration of its passage t, that is W = R-U-1-t. Therefore, if two identical resistances are sequentially included in a closed circuit, then the same amount of heat should be allocated to them in a unit of time. It seems quite obvious that, bypassing the first resistance, the electrons are not able to either acquire additional energy or lose it.
But does Ohm’s law really hold for resistances of all kinds at low current densities? Interested in this issue, I performed a series of simple experiments. Two, if possible, the same resistance, I included in the DC circuit, and next to them attached sensors sensitive thermometers. Each resistance, together with its “own” sensor, was placed in a separate thermostat.
In the first experiments, as resistance, I used incandescent lamps (calculated for a voltage of 2.5 V and a current of 0.15 A). Turning on the current (its source was a reducing stabilizing transformer and a rectifier included in a household circuit with a voltage of 220 V), I measured the temperature in thermostats for an hour; then changed the lamps in places and repeated the measurements. Five series of similar experiments showed that the metallic resistances gave off the amount of heat in full accordance with the classical laws of electrical engineering, and no matter where these resistances were located.
I did not make measurements using resistances of other types, but I performed the experiment using electrolytic cells as a resistance in which ordinary tap water was decomposed on stainless steel electrodes; the result again did not reveal any anomalies.
But if electrolysis of water was carried out in a porous, heterogeneous medium, the picture turned out to be different.
I filled the electrolytic cells with a mixture of quartz sand and tap water, acidified for better electrical conductivity by several droplets of hydrochloric acid (which, generally speaking, is not necessary). And the first experiments gave amazing results, not corresponding to the classical laws of electrical engineering.