Static electricity from the air

Have you ever touched a coworker’s hand or a metal doorknob and felt an unexpected shock? Static electricity is the cause of the shock you experienced; it happens frequently in our day-to-day lives. Static electricity can have serious effects on your home’s insulation and heating, even though it may just seem like a minor irritation.

Imagine this: static electricity becomes more common as winter approaches and the air gets drier. Static electricity can affect your home’s insulation and heating systems in addition to making your hair stand on end or giving you the occasional zap. By being aware of the causes of static electricity and how it affects your house, you can take preventative action to lessen its effects.

In essence, an imbalance in electric charge on an object’s surface is known as static electricity. It happens when certain materials come into contact with one another and electrons move from one surface to another. One surface is left negatively charged and the other positively charged as a result of this transfer, producing a potential difference that may explode as a spark. This phenomenon can happen in your house when the air is moving against different surfaces or when your heating system is running.

You may now be wondering how insulation and heating are related to static electricity. This is where the connection lies: static electricity can impede the effective functioning of heating systems, like heat pumps or furnaces. Static electricity attracts dust and other particles and can cause blockages that lower heating efficiency and decrease airflow when it accumulates on surfaces like air ducts or vents.

Moreover, static electricity may have an impact on your home’s insulation. In order to reduce the amount of heat transfer between the interior and exterior of your home, insulation works by capturing air pockets. Nevertheless, the effectiveness of the insulation is diminished when static electricity accumulates on insulated surfaces and disrupts the air pockets. This implies that during the winter, your house might lose heat more quickly, resulting in higher energy costs and less comfort.

Topic Static Electricity from the Air
Causes Air friction, dry air, synthetic materials
Effects Static shocks, clinging clothes, dust attraction
Prevention Humidifiers, antistatic sprays, natural fiber clothing

What you can try to do

Let’s examine the two most basic methods for drawing energy from the planet.

Galvanic couple principle

Because the earth is composed of gases, water, and minerals, it is the easiest place to find the difference in potential, which is our task. The ground is made up of solid particles with water molecules and air bubbles in between.

A micelle is the basic unit of soil. This is a potentially different clay-humus complex. Because these particles amass charges according to the same principle as the planet, electrochemical reactions occur in the soil continuously. Connecting to this "network" is our task.

It is possible to use two electrodes composed of different metals, such as copper and galvanized iron; in other words, the same principle as in a traditional salt battery. We additionally require an electrolyte (salt solution) in addition to the galvanic pair.

  • We immerse the electrodes in the ground about half a meter, at a distance of 25 centimeters from each other.
  • We install around a piece of pipe of the necessary diameter to shield the rest of the soil from the electrolyte, as the salt level will not allow any plants to grow in the place of watering.
  • Prepare a saturated aqueous salt solution and pour it on the ground between the electrodes.
  • Connect a voltmeter to the leads after about 15 minutes and see that the device shows a voltage of 3V.

In total, a low-power LED lamp can be connected to the resulting power source. The results will differ in different places due to the voltmeter readings’ variability based on the soil’s density, humidity, and other factors.

Method with grounding

If your home has a standard ground loop, be aware that some of the electricity you use, particularly when multiple appliances are on at once, travels through it and into the ground.

This procedure will result in a potential difference of 15 to 20 volts between your network’s neutral wire and the grounding wire. They can be made to glow by attaching a low-voltage lightbulb to them.

That’s interesting to know! Since this current has already passed through the electric meter, it will not be recorded by it.

By installing a transformer and thereby equalizing the voltage, the plan can be made better. Additionally, by incorporating a battery into the plan, you can store energy and use the plan during "silent" periods when other household appliances are not running.

This solution functions, but it is limited to private residences because apartments lack conventional grounding and it is illegal to use water pipes for this purpose. Furthermore, since the ground will be under 220V of voltage, it is not possible to use the ground and phase for connection. The price of such an experience could be someone’s life.

Free electricity from the surge protector

Many people looking for free electricity most likely discovered via online resources that an extension cord can create a closed circuit and provide an endless supply of free energy. You should bring a surge protector with a minimum three-meter wire length for this purpose. Create a coil out of the cable that is no larger than 30 centimeters in diameter. Attach it to the electrical consumer’s socket, blocking off all unoccupied spaces so that there is only room for the extension cord’s plug.

The surge protector then needs to be initially charged. The simplest method is to short circuit an extension cord in a split second after connecting it to a working network. Light fixtures can be powered by free electricity from an extension cord, but there isn’t enough free energy in such a network for anything more. The technique itself is also highly debatable.

Electricity from the neutral wire

Residential power supply typically uses a three-phase network with a deaf-earthed neutral. Phase voltage is supplied to individual consumers from one phase and the neutral wire. During times of high electrical consumption, a potential difference forms between the neutral conductor of the supply network and the grounding conductor if the home has a dependable grounding circuit with low resistance. This discrepancy may reach 12 to 15 V. The instability of the voltage between zero and ground, which is directly correlated with the amount of power used by the house, is the issue. The highest voltage is only attained when the current consumption is at its highest.

The above described methods of obtaining electricity are quite workable. With the use of pulse electronic converters, it is possible to obtain a voltage of any value. However, for real use in the home, the described methods are not suitable due to the very low power of such current sources. The exception is the scheme with metal electrodes, but to achieve acceptable power, it will be necessary to cover a large area with metal pins and periodically water it with salt solution. Getting enough electricity out of the ground to use is not as easy as it sounds. Despite the fact that magnetic and electric fields envelop the planet, there is currently no technical possibility of harnessing this potential. It is impossible to consider such methods as a source of energy supply at home. With your own hands you can build only a power source for a couple of LEDs, a clock or a radio receiver with very low power consumption.

Also read:

  • Vortex electric field
  • Atmospheric electricity with your own hands

What else

In addition to the common, there are some highly uncommon methods of producing electricity. The development of alternative energy has been the focus of intense global scientific effort recently. The world is trying to figure out how to use it more extensively.

Here’s a brief summary of the top approaches and concepts:

Thermal energy is transformed into electrical energy by a thermal generator. integrated into stoves for cooking and heating.

Kinetic energy is used by piezoelectric generators. used in exercise equipment, turnstiles, and dance floors.

The energy of a human body’s vibrations during movement is applied by a nanogenerator. Instantaneousness is a defining feature of the process. Researchers are attempting to integrate a solar panel’s and a nanogenerator’s capabilities.

The Kapanadze fuelless generator operates using bifilar coils in the stator and permanent magnets in the rotor. 1–10 kW of power. Although it is based on one of Tesla’s inventions, not everyone agrees with this idea. Another version claims that the device’s actual technology is being kept well hidden.

Installations for experimentation powered by the electro-magnetic field (ether). Experiments and hypothesis testing are being carried out while the search is still ongoing.

According to scientific calculations, there could be sufficient natural reserves for the next 60 years to support modern power generation. The brightest minds are working to advance this field. Twenty-five percent of people in Denmark use wind energy.

In Australia, 8% of the energy system will come from renewable sources, compared to 10% in Russia. The majority of voters in Switzerland approved a full switch to renewable energy. The entire world casts its vote in favor!

Myths and reality

Online videos abound showing people starting electric motors, lighting 150 W lamps from the ground, and other such feats. There are even more text resources that go into great detail about earth batteries. Since anything can be written, it is advised not to take such information too seriously and to make the necessary preparations before filming a video.

After reading or viewing these materials, you might start to believe a lot of lies. For instance, an ocean of free electricity is present in the Earth’s electric or magnetic field and can be easily obtained. In actuality, there is a vast supply of energy, but extracting it is not simple. If not, nobody would be heating with natural gas, operating internal combustion engines, or doing any of these things anymore.

As a point of reference. Our planet’s magnetic field is real and shields all life from the damaging effects of different solar particle radiation. From west to east, the field lines are parallel to the ground.

The theory states that we can observe how challenging it is to obtain electricity from the earth’s magnetic field by conducting some virtual experiments. For the sake of experiment purity, let’s use two metal electrodes that are square sheets with one meter on each side. One sheet should be positioned on the ground so that it is perpendicular to the power lines, and the second sheet should be raised to a height of 500 meters and positioned in space in the same manner.

A potential difference of roughly 80 volts should exist between the electrodes in theory. If the second sheet is positioned underground, at the base of the deepest mine, the same result will be seen. Imagine a power plant like that, with a kilometer-tall structure and a vast electrode surface area. The station must also withstand lightning strikes, which it will undoubtedly experience. This might actually happen in the far future.

However, it is possible to obtain electricity from the ground, albeit in very small amounts. It may be sufficient to turn on a calculator, light an LED flashlight, or partially charge a cell phone. Let’s examine the methods for achieving this.

The eternal lamp and electricity from nothing

Subjects: Arts, Science, Electric Current |Keywords: Arts, Science, Electric Current |Date: March 1, 2011 | Svetlana

It’s probably uncommon knowledge that electric current can be obtained from "the void." There’s no need to be alarmed; this was a secret until 1993, when electricity was extracted in a similar manner for the first time in a home laboratory called "Nanomir." This achievement was made possible by a unique apparatus known as a resonator.

Experts have found that resonance qualities can be found in many symmetrical cult objects, including tridents, crosses, stars, crowns, and kusudamas. The latter you are familiar with from classes on origami.

The resulting current was very weak, it was registered by the instruments at the limit of sensitivity. For two more years it has not been possible to create a powerful energy source, because undamped electrical oscillations can only occur in a resonator whose degree of symmetry exceeds 100,000. So how do you make a lily or trident with such incredible precision? After all, with petal sizes of 0.5 meters, the error should not exceed a few microns! But if it is impossible to make such a complex resonator precisely, maybe there is information about straight-line transducers? The kusudamas turned out to be just such a device. They consist of flat elements and have the shape that modern means can produce with the necessary precision. Would you like to try it?? You will become the owner of an eternal lamp, which does not need to be plugged into the socket and will not have to be replaced – it does not burn out.

It’s true that in order to order kusudama, one must visit the factory, where precise machinery is used to create the product, which is made of a material that heats up weakly. A bulb’s surface needs to be polished and sputter-coated with conductive material in order for it to convert energy. Silver is the best conductor, but pure silver oxidizes quickly, meaning that the "eternal" bulb will soon burn out. The silver skin layer needs to be sprayed with a protective layer made of a different metal that is 100 times thinner in order to stop this from happening. A single gram of gold is sufficient to shield multiple 300-watt "eternal" bulbs.

The cusa lady won’t be able to shine. All it does is convert the ether’s internal energy into electromagnetic vibrations, which are oddly enough not to be released as electromagnetic waves. They can no longer be registered at arm’s length without the use of an extremely sensitive device. Kusudama is an antenna that emits no radiation. She has resonance.

So how do you turn invisible oscillations of electric and magnetic fields into visible light?? Here the knowledge of atoms, molecules and crystals will help us. It turns out that it is enough to place a piece of quartz in the zone of electromagnetic oscillations, and it will shine with a bluish light. This phenomenon can be observed if the mineral is placed in a microwave oven with a transparent door.
The question may arise: why then do not the gems inserted in the golden crown glow?? because it"s also a resonator. For those who have not guessed, let me remind you: the degree of symmetry of the resonator must be greater than 100 000. And crowns, of course, have a much lower antenna.
Lefty Magazine #12-95.

How to make free electricity at home

Strong and consistent free electricity is needed in the apartment, so a strong installation is needed to completely guarantee consumption. Choosing the best approach is the first thing to do. For this reason, installing is advised in sunny areas. In the event that solar power is insufficient, geothermal or wind power plants ought to be employed. The latter approach works particularly well in areas that are close to volcanic zones.

Once you’ve chosen your energy source, you should consider the security and safety of your electrical appliances. In order to prevent a spike in the current supply, the home power plant needs to be connected to the grid via an inverter and a voltage stabilizer. It’s important to keep in mind that other sources can be highly unpredictable when it comes to weather. The production of electricity will cease or be insufficient in the absence of suitable meteorological conditions. As a result, in the event that generation is lacking, you should also purchase strong accumulators for storage.

There are lots of prefabricated alternative power plants on the market. Although they are fairly expensive, they all pay for themselves in two to five years on average. By buying the parts for a power plant rather than a pre-built unit, you can save money by designing and connecting the plant yourself.

A little bit about what free electricity is

The cost of utilities is very high right now. As a result, a lot of people are considering less expensive sources of essential resources in place of centralized gas and electricity.

The solid fuel pyrolysis boiler was created to heat a home at the lowest possible cost. Solid fuel is burned to produce gas in this unit. An entire house can be heated with this device.

Additionally, a lot of solid fuel stoves have ovens and cooking surfaces. You can use such a device to forbid anyone from entering your home.

It’s far more complicated when it comes to electricity. Modern homes have so many electrical appliances these days that it is nearly impossible to supply enough energy for them all through alternative sources. However, you can reduce the cost of maintaining some of your electrical appliances as much as possible by finding novel ways to obtain free electricity. Let’s investigate these methods.

  • The most common is considered to be electricity obtained from the energy of the sun;
  • Free energy from the air and atmosphere is also enjoyed;
  • It is very interesting to get static electricity from the ground;
  • Electric current can also be generated from the ether;
  • On the verge of fantasy seems free electricity from nothing;
  • As it turns out, it is also possible to extract electricity from the magnetic field;
  • It is possible to produce electricity from wood, water, and other improvised means.

Even a tiny lightbulb can be powered by some of these techniques. Others are sufficient to ensure that at least half of the household’s appliances operate.

Making a home electricity generator "free of charge" is not possible. Ultimately, the materials required for these devices will cost you some money. Thus, unless we are specifically discussing anticlove, we mean inexpensive electricity when we say "generating electricity from the balloon."

With a few basic technological tools, free electricity can be obtained.

We’ll be sharing with you today a number of the most promising substitute methods for obtaining electricity. We’ll also discuss the prospect of creating electricity out of thin air.

Known ways of extracting electricity

In the first example, two rods composed of different metals are used to help generate electricity from the earth. The electric and magnetic fields of the earth have no bearing on this technique. The rods are utilized in a salt solution as a galvanic pair. A potential difference, or electric current, forms at the ends of the metal bars submerged in the electrolyte solution if the experiment is conducted exactly as described.

The size of the electrodes, the properties of the electrolyte, the depth of embedment, and other variables will all affect how much current is generated as a result.

Utilizing the same plan, one can extract electricity from the earth. Aluminum and copper rods are taken for this purpose, and they will be used as a galvanic pair. They ought to be buried for roughly 50 centimeters, spaced 20 to 30 centimeters apart. The space between the rods is covered with a thick layer of salt solution, and after five to ten minutes, control measurements can be made using an electronic voltmeter.

The voltmeter displays a range of values; three volts was the highest reading. Table salt and distilled water are combined to create the electrolyte solution.

The latter choice The Earth’s magnetic field has no bearing on current extraction either. The main goal is to recover the electricity that is going down the "ground" wire when energy consumption is at its highest. This process also involves the zero conductor.

Everyone is aware that phase and neutral wires are used to supply voltage to consumers. If a third conductor is attached to the ground loop, there is frequently a voltage between it and the neutral conductor—up to 15 volts at times. A 12-volt incandescent lightbulb connected to both conductors can be used to identify this condition. Since metering devices do not respond to this phenomenon and do not detect the current flowing from zero to ground, no other method of recording it is feasible.

Apartments are not a good place for this method because typically they don’t have a grounding that can do its job. These experiments are effective in individual homes equipped with a traditional grounding circuit. The neutral conductor is connected first to the load, and then to the ground wire, according to the connection scheme. Some home electricians use transformers to smooth current fluctuations while they manually extract electricity from the ground, after which they connect the most suitable load.

To prevent fatal situations, it is strictly forbidden to connect the phase instead of the neutral conductor.

Electricity from the ground and neutral wire

This phenomenon also results from a portion of the current "flowing" through the ground during peak electricity consumption hours, rather than from the Earth’s magnetic field. The majority of users are aware that the house’s voltage is supplied by the phase and zero conductors.

It is possible for voltage to "walk" up to 15 V between the zero contact and the third conductor if it is connected to a reliable grounding circuit. By connecting a load, such as a 12 V lightbulb, between the contacts, this fact can be corrected. What is typical is that metering devices do not record the current flowing from ground to "zero."

Utilizing this kind of free voltage in an apartment is challenging since there isn’t a stable grounding and pipelines don’t qualify as such. However, power can be obtained in a private residence, where a grounding circuit ought to exist by default.

A straightforward connection scheme of neutral wire, load, and ground is employed. Some clever individuals have even figured out how to use a transformer to reduce current fluctuations and connect the right load.

Take note! Never heed the advice of "good" advisers who recommend using a phase conductor rather than a neutral conductor! The truth is that even though the phase and ground will provide you with 220 V with this connection, touching the ground bar poses a serious risk. This is particularly true for "skilled" individuals who perform such tasks in apartments by connecting the battery, phase, and load.

They put every neighbor at risk of electrocution.

Innovative methods of utilizing natural forces are essential in today’s world where energy conservation is of utmost importance. Static electricity from the air offers a fascinating avenue for heating and insulating our homes. An electric charge is created when air molecules rub against one another, causing this phenomenon. Through the capture and utilization of static electricity, it is possible to mitigate our dependence on conventional heating techniques and enhance the efficiency of insulation. In the future, just walking across a carpet could help keep your house warm during the winter. Investigating the potential of airborne static electricity may result in environmentally and energy-efficiently sustainable heating and insulation solutions while also promoting environmental responsibility.

Mark"s alternative

The gadget, created by Stephen Mark, is also referred to as the TPU air power generator. It does this without requiring input from the outside world and enables you to obtain varying amounts of electricity for various uses. But because of a few quirks, it still doesn’t function. That doesn’t stop me from telling you about it, though.

The working principle is straightforward: current shocks in the metal taps are encouraged to appear by the ring’s resonance of magnetic vortices and currents. You will need the following to build a toroidal generator of this kind that will enable you to manually generate electricity from the air:

  1. A base, which can be a piece of plywood, a ring-like piece of polyurethane or a piece of rubber; 2 collector coils (outer and inner) and a control coil. As a base, a ring with an outer diameter of 230 millimeters and an inner diameter of 180 millimeters is the best choice.
  2. Wind the coil inside the collector. The winding should be three turns and be made with stranded wire made of copper. Theoretically, to power a light bulb, you should be enough one coil as shown in the photos. If it doesn"t work, make another one.
  3. Control coils need 4 pieces. Each of them should be placed at right angles so as not to interfere with the magnetic field. The winding should be flat and the gap between coils should not exceed 15 millimeters. Anything less is also undesirable.
  4. To wind the control coils, use a single-core wire. At least 21 coils must be made.
  5. For the last coil use copper wire with insulation, which should be wound over the entire area. The basic construction is complete.

After placing a ten microfarad capacitor between the ground and the return ground, connect the outputs. Transistors and multivibrators are used to power the circuit. Because different designs require different characteristics, choose them based on their experience.

Myths and reality

Attempts by common people to "extract" electricity on their own, eschewing government tariffs, have given rise to a great deal of rumors and conjecture:

  • The main myth associated with the independent obtaining of energy from the earth is the following: this electricity is eternal.

Refutation: There are a number of requirements that need to be satisfied in order to theoretically extract electricity from the ground, such as having non-oxidizable wires, a metal rod or pin buried far enough into the ground, and unique soil properties.

Since it is impossible to satisfy all of these requirements, the electricity generated in this manner is not infinite.

  • Myth Two: Earth"s energy is free.

Refutation: Partially true: An individual is free to use their own piece of land however they please. However, a lot of earth is required in order to receive any electrical charge.

  • Myth three: the electricity that can be obtained thanks to the earth has a huge capacity.

Refutation: A basic cell phone or a small light bulb can be powered by the earth’s electricity output, albeit very slowly. One family would need endless land and resources in order to boil an electric kettle, charge a laptop, or turn on a refrigerator. These tasks would require a lot of soil, metal pins, and wires.

Alternative and questionable methods

The tale of the unassuming dachnik who is said to have obtained free electricity from the pyramids is well known. This man says he lights up the entire homestead plot with pyramids he built out of foil and a battery for storage. Even so, it doesn’t seem likely.

Another factor is when scientific men are conducting the research. It is worthwhile to consider this. For instance, research is done on using plant materials that sink to the soil to generate electricity. You can conduct these kinds of experiments at home. especially considering that the ensuing current poses no threat to life.

Some foreign nations have volcanoes, and they successfully harness their energy to generate electricity. Special installations enable the operation of entire factories. Ultimately, the generated energy is expressed in megawatts. However, it’s particularly fascinating that regular people can do this kind of manual electricity extraction. As an illustration, some people use the volcano’s heat, which is easily converted into electricity.

Many scientists are having difficulty coming up with new ways to produce energy. Beginning with the utilization of photosynthesis processes, the Earth’s energy and solar winds serve as the conclusion. It’s the right thing to do in an era where demand for electricity is high. Furthermore, everyone with a modicum of knowledge and interest can contribute to the study of obtaining free energy.

Stephen Mark"s generator

Another intriguing and functional idea is the TPU generator, which enables the extraction of electricity from the atmosphere. The renowned researcher Stephen Mark created it.

This gadget makes it feasible to build up enough electric potential to maintain home appliances without the need for an additional power source. Following the technology’s patent, hundreds of enthusiasts attempted to replicate the experience at home. But certain features prevented it from being made available to the general public.

The basic idea behind how the Stephen Mark generator works is that current shocks are produced when resonance between magnetic vortices and currents forms within the device’s ring. The following guidelines must be followed in order to produce a toroidal generator:

  1. First of all, the base of the device should be prepared. As it can be used a piece of plywood in the form of a ring, a piece of rubber or polyurethane. It is also necessary to find two collector coils and control coils. Depending on the drawing, the dimensions of the design may vary, but the optimal variant is the following indicators: the outer diameter of the ring is 230 mm, the inner diameter is 180 mm. The width is 25 mm and thickness is 5 mm.
  2. The inner collector coil must be wound using stranded copper wire. For better interaction, a three-strand winding is used, although experts are confident that even one coil can power a light bulb.
  3. You should also prepare 4 control coils. When placing these elements, it is necessary to observe a right angle, otherwise there may be interference with the magnetic field. The winding of these coils is flat, and the gap between the turns is no more than 15 mm.
  4. When winding the control coils, it is customary to use single-core wires.
  5. To perform the installation of the last coil, it is necessary to use insulated copper wire, which is wound over the entire area of the base of the structure.

Following the aforementioned procedures, connecting the leads is the last step. A 10-microfarad capacitor should be installed beforehand. High-speed transistors and multivibrators, which are chosen with consideration for the size, kind of wires, and other design elements, power the circuit.

Free energy from atmospheric electricity

These days, there are only two methods left for drawing power from the atmosphere: wind farms and atmospheric fields. And the second kind of devices raises a lot of questions, given that windmills have already seen a lot of people and that we have a general understanding of how they operate and where their energy comes from.

Two inventors, Sergei Godin and John Searle, are the owners of the intriguing machines and discoveries. Furthermore, one of the two schemes forms the basis of the majority of experiments carried out by amateurs at home. How were these two able to create energy out of nothing?

John Searle claims to have succeeded in creating a perpetual motion machine. He placed a powerful multipole magnet in the center of his design and magnetized rollers around it. Under the influence of electromagnetic forces, the rollers roll in an attempt to find a stable position, but the central magnet is designed so that the rollers never reach this position. Of course, sooner or later such a design must still stop, unless a way is devised to energize it externally. In one test, Searle"s machine ran non-stop for two months. The scientist claimed that he had managed to patent a way of feeding his device directly from the energy of the universe, which, as he believed, is contained in every cubic centimeter of space. It"s hard to believe, but John Searle patented the first version of his engine back in 1946.

This device generated electricity and was self-revving once it was put together. Although Searle received a deluge of orders from people eager to buy a device that could extract energy from the atmosphere right away, the scientist was unable to make a fortune from his creation. He was arrested on suspicion of stealing electricity, and the laboratory’s equipment was removed and taken to an unidentified location. An impartial British court found it hard to accept that John Searle generated all the electricity needed to light his home.

Another device, resembling a flying saucer, was found in a dacha village close to Moscow. It is the first fuel-free electricity generator in history. Sergei Godin, his inventor, is certain that this device will be sufficient to supply electricity to all of his dacha neighbors. Installing a device like this in a house’s basement would provide all the electricity needed for a sizable contemporary apartment complex. The physicist is certain that there exists a substance on Earth that contemporary science has yet to discover. This is known as the aether, according to Sergei Godin.

Where to get free electricity

Electricity can be obtained from anything. The sole prerequisite is the presence of a potential difference and a conductor. Researchers and practitioners are always searching for new, cost-free alternative sources of energy and electricity. It should be made clear that free does not imply free central power supply; the equipment and installation are still expenses. It’s true that these investments are later more than paid for.

Right now, three different sources are used to extract free electricity:

Methods of obtaining electricity Features of energy generation
Solar power Requires the installation of solar panels or a collector made of glass tubes. In the first case, electricity will be generated due to the constant movement of electrons under the influence of sunlight inside the battery, in the second – electricity will be converted from the heat from heating.
Wind energy When the wind blows, the blades of the wind turbine will begin to actively rotate, generating electricity that can be immediately supplied to a battery or the grid.
Geothermal energy The method involves extracting heat from deep in the ground and then converting it into electricity. To do this, a borehole is drilled and a probe is installed with a heat transfer fluid that will draw some of the constant heat that exists deep inside the earth.

These techniques are employed widely as well as by regular customers. For instance, Iceland has installed massive geothermal plants that produce hundreds of megawatts.

Electricity from the earth with your own hands

A conductor must first be grounded and placed on the earth’s surface. Next, you must consider the emitter, which is the apparatus that facilitates the electrons’ departure from the conductor. A high voltage generator or a gadget known as a Tesla coil can be used for this. The outcome of its work will rely on the current’s ultimate strength.

Electrons will begin to move up to the top point, which is where the emitter is located, at a certain potential of the earth’s electric field. It will cause the conductor’s metal to release electrons, which will then be released into the atmosphere as ions. The movement doesn’t stop until their potential and the Earth’s electric field are equal, or until neutralization is attained.

In this way, the energy consumer is a part of the closed natural electrical circuit.

Keep in mind that the grounded conductors are below the electric field. All of them are structures, trees, power lines, and so forth. Therefore, the installation must be elevated above surrounding steeples, roofs, and earth electrodes in order for it to function in an urban setting.

This is how electricity appears to be seen from the ground. The diagram is shown to you here.

What it takes to build a simple power generation station

Then, how is electricity generated from the air? Two things are needed to extract electricity from the air: a metal antenna and the ground. An electric potential is created between these conductors with varying polarities, and it builds up over time. Calculating its strength is nearly impossible due to the variability of the magnitude. Similar to lightning, this type of station releases current when the maximum potential is reached, usually after a predetermined amount of time. You can obtain a sizable amount of electricity in this way to maintain the electrical system.

The alternative

The enormous Wardenclyffe Tower in New York City was designed in 1901 by the well-known and brilliant scientist Nikolai Tesla. JP Morgan has assumed responsibility for the project’s finances. Tesla aspired to bring free radio communication and free electricity to all people. Conversely, Morgan just expected wireless international communication.

The industrial and financial Aces were appalled by the prospect of free electricity. Everyone was clinging to their enormous profits, and there were no revolutionaries willing to upend the global economic system. For this reason, the project was shelved.

What then did Tesla construct? How was he going to generate electricity for free? The concept of alternative energy derived from other sources is becoming more and more popular in the twenty-first century. The Earth’s and other planets’ renewable resources function as a sort of counterbalance to gas, coal, and oil.

Where can you obtain free electricity? Future Earth can be altered by solar energy, wind energy, earth energy, tide utilization, and human muscle energy. Reactor sarcophagi and pipelines will eventually disappear. Numerous states will be able to eliminate the need for costly electricity purchases in their economies.

There is a growing interest in finding readily renewable alternative energy sources. Humanity has been worried about resource economy and environmental cleanliness in recent decades.

Helpful hints

When building an apparatus that draws electricity from the atmosphere, one must keep in mind a specific risk that is related to the lightning principle’s potential for failure.

It’s critical to pay attention to the right connection, polarity, and other crucial details to prevent unintended consequences.

It won’t take a lot of money or effort to manufacture a gadget that will provide electricity at a reasonable price. It suffices to select a straightforward plan and adhere precisely to the step-by-step instructions.

Naturally, building a heavy-duty gadget by hand presents challenges because it calls for more intricate circuitry and can be expensive. However, creating basic mechanisms is a task that can be completed at home.

Method with neutral wire

In a residential building, two conductors are used to supply the voltage: the phase and the zero. A portion of the electricity used during periods of high electricity consumption passes through the grounding into the ground if the house has a high-quality grounding circuit. A 12 V lightbulb connected to the neutral wire and ground will light up because the voltage between the contacts labeled "ground" and zero can reach 15 V. Furthermore, the electric meter does not regulate this current.

Utilizing a neutral wire to extract electricity

The plan, which was put together with the idea of zero energy consumption, is effective. If desired, voltage fluctuations can be equalized with a transformer. The unpredictability of the appearance of electricity between zero and ground is a drawback because it necessitates high electricity consumption from the home.

Be mindful! This method of obtaining free electricity is only appropriate for private residences. Apartments lack a stable grounding system, making it hard to use pipelines for the water or heating systems as such.

Since the grounding rail is under 220 V of voltage, which is extremely dangerous, connecting the grounding circuit to the phase to obtain electricity is more strictly prohibited.

Such a system can’t be linked to the source of terrestrial electricity, even though it uses the earth for work. It is still unclear how to harness the planet’s electromagnetic potential to extract energy.

Method with two electrodes

Using the same basic concept as traditional salt batteries—a galvanic pair and an electrolyte—is the most straightforward method of producing electricity at home. An electrical potential difference forms at the ends of rods composed of various metals when they are submerged in a salt solution.

Such a galvanic cell’s power is dependent on several factors, such as:

  • the cross section and length of the electrodes;
  • the depth of immersion of the electrodes in the electrolyte;
  • concentration of salts in the electrolyte and its temperature, etc.д.

You need two electrodes for a galvanic pair—one made of copper and the other of galvanized iron—in order to generate electricity. The electrodes are positioned approximately 25 centimeters apart from one another after being submerged in the earth to a depth of about half a meter. It is important to thoroughly wet the ground between the electrodes with a salt solution. After ten to fifteen minutes, you can measure the voltage at the ends of the electrodes with a voltmeter and find that the system provides approximately three volts of free current.

Electricity extraction using two rods

The size and depth of the electrode installation, as well as the properties of the soil and its moisture content, will all affect the voltmeter readings when you perform a series of tests at various locations. It is advised to use a piece of pipe with an appropriate diameter to restrict the area where the salt solution will be poured in order to maximize efficiency.

Take note! This concentration of salt renders the soil unsuitable for plant growth, and it necessitates the use of a saturated electrolyte.

Response to the reader

I appreciate you asking such a fascinating question, Alexander. I assure you that there are many people on our planet who are concerned about this issue, including the author of this material, and there are many reasons for this.

  • First of all, This is a constant rise in energy prices, which very strongly pushes up inflation on other goods, because of which we have to rotate like squirrels in a wheel, constantly increasing production, plus modern banking systems, but let"s not talk about it.
  • Secondly, many people can not rest shrouded in mystery biography of the famous Serbian inventor Nikola Tesla, who, according to rumors, was able to build a full-fledged power plant, which was able to provide electricity taken from the ether, the whole city, but the technology was blocked by the reigning industrialists in America at the time.
  • Thirdly, there are working schemes, which we will discuss today, and, as you know, everything that works can be improved.

There are a tonne of videos available online that show off home DIYers’ installations that harness the Earth’s magnetic and electric fields for power. Even though we haven’t seen these devices in action, someone manages to sell them, which doesn’t take away from the fact that they exist.

There is a rumor that a specific Swiss company, whose name the author has managed to successfully forget, formally sells for astronomically high prices small devices that can power a whole house with all of its appliances, provided that only its specialists service them.

You should understand, though, that the majority of these images and videos are fake, created for financial gain or celebrity. Excuses such as "we can’t post device schematics because the inventors "press" special services right away" are merely that—excuses. Even though we don’t want to fully refute the conspiracy theory, anything can be posted online at will, and it will be impossible to keep it entirely clean. It’s not very important.

All of this, however, is just lyrics. Instead, let’s discuss what we can create with our own hands and whether or not such energy is applicable to daily life.

What"s true and what"s a myth

We attempt to ignite a lightbulb.

So, is it feasible to harness the electric magnetic field of Earth to generate electricity?

Yes, in theory! The earth is essentially a single, massive, spherically-shaped capacitor.

  • The inner surface of the planet is accumulating negative charge, while the outer surface is accumulating positive charge.
  • The insulator between them is the atmosphere, through which the current is constantly flowing, and the potential difference is maintained;
  • Lost charges are recovered by the magnetic field, which is essentially a generator.

So how does one draw electricity from such rudimentary wiring? The following components ought to be included in the device:

  • Tesla coil (emitter) – a high-voltage generator that allows electrons to leave the conductor;
  • Conductor;
  • A ground loop connected to the conductor.

In theory, the instructions are easy to follow! Ideally, it would be our responsibility to handle proper grounding and connect to the generator pole, but…

  • The highest point of the installation, where the emitter is located, should be located at such a height that the potential of the Earth"s electric field, or rather its difference, raises the electrons up the conductor.
  • The emitter, in the form of ions, will release them into the atmosphere and will do so until the potential level is equalized.
  • To such a circuit can be connected to current consumers, and their number will depend on the power of the Tesla coil.
  • Oh, we almost forgot! It is necessary to take into account the height of all grounded conductors in the neighborhood (trees, metal poles, high-rise buildings, etc.) and make the installation above them all, which makes the idea almost unrealistic to execute.

Reality or myth

Most people believe that using the air to generate energy is completely absurd. It is feasible to extract energy resources from nothing at all, though. Furthermore, in recent times, insightful articles, drawings, and installation schemes have surfaced on themed forums, facilitating the realization of this concept.

The air contains a small amount of statistical electricity; it just needs to learn how to accumulate it, which explains the system’s basic working principle. The initial trials for developing such an installation were conducted a long time ago. We can use renowned scientist Nikola Tesla as a striking example, as he consistently considered producing inexpensive electricity out of nothing.

The gifted inventor spent a great deal of time on this subject, but most of the important findings remained undiscovered because it was impossible to record all of the experiments and research on video. Nonetheless, top specialists are attempting to replicate his advancements based on previously discovered documents and contemporaneous accounts. Scientists have created a device that allows them to potentially extract electricity from the atmosphere—virtually from nothing—after conducting a number of experiments.

Tesla established the existence of static electricity, or a specific electric potential, between the base and the elevated metal plate. It has also come to his attention that this resource is accumulable.

The scientist then created a sophisticated apparatus that uses only the potential present in the air to gather a small quantity of electrical energy. By the way, the researcher found that when the atmosphere interacts with the sun’s rays, a tiny amount of electricity that is in the air appears.

It is important to pay attention to Steven Mark’s device in light of contemporary inventions. This gifted inventor created a toroidal generator, which is far more energy-efficient and advanced over earlier models.

The resulting electricity is more than sufficient to run some household appliances and dim lighting fixtures. The generator runs for a considerable amount of time without receiving any more feed.

Electricity from the earth with your own hands

However, a lot of people never give up on trying to draw electricity from the earth to improve or simplify their lives, and they shouldn’t be discouraged because those who persevered and were passionate about their ideas made some of the most significant discoveries in human history.

The most widely used methods for swiftly and affordably drawing electricity from the earth are ranked.

Zero wire – load – soil

All apartment electrical appliances are powered by alternating current, which enters the building through the zero and phase conductors. Grounding causes a significant amount of energy to enter the soil. Naturally, nobody wants to pay for a product they can’t use to its full potential. Thus, resourceful individuals have long since discovered how to use a neutral conductor to draw energy from the earth.

This approach is based on the idea that the earth is an energy store and conductor because of its physical characteristics.

An illustration showing how to lay underground cables

You must build a basic circuit in order to extract electricity.

  • At a sufficient distance, two metal stakes are dug into the ground, one of which is the cathode and the other is the anode, which will result in 1 to 3 V of energy. The current will be negligible in this case.
  • In order to increase the voltage and current strength, many pins, both in series and in parallel, will have to be driven into a large area of land. Series connection increases the voltage, and parallel connection increases the strength of the current.
  • When the voltage reaches 20-30 V, a simple transformer should be connected to the circuit to increase the output voltage and a battery to store and stabilize the electrical energy. The last stage is the transformation of a constant thirty-volt current into an alternating current with a voltage of 220 V.

Zinc and copper electrode

This is the principle that organizes batteries and is currently the simplest, least expensive, and most effective way to generate electrical energy.

In order to create an environment that is as acidic as possible, the first step is to isolate a specific amount of soil. Next, attach the electrodes made of copper and zinc to this insulated earth. In reality, electricity is the output. This energy generation principle is highly dependent on soil quality; the more acidic the soil, the better.

Copper and zinc batteries

Putting two keys—a copper key and an iron key—into an orange makes for an intriguing experiment. Up to 1 V of voltage is the outcome. The area of the electrodes in contact with the acid and the orange’s acidity level are the decisive factors.

That is sufficient energy to fully charge a basic cell phone. It is required to connect multiple additional of the same circuits in parallel to this circuit in order to increase the power. This will make it feasible to charge a laptop or smartphone, but the power station consisting of electrodes and oranges will require a large space.

While this is a good method of obtaining energy, it is not durable or reliable because the energy supply stops as soon as the copper and zinc electrodes oxidize and the voltage drops. Acid can be added and the oxide can be scrubbed off to remedy the situation.

Potential between the roof and the ground

It is possible to use the electrical energy produced by installing a metal pin in the ground and pulling a wire from it to the roof safely.

Indeed, but only up until the first thunderstorm, as it is a true conductor.

The appliances and wiring will, at best, sustain damage; at worst, the lives of the occupants of the house will be in jeopardy.

Types of extraction

There are two methods to extract alternative electricity from the air:

  1. Wind generators;
  2. By the fields permeating the atmosphere.

The electrical potential tends to accumulate over time, as you are aware. The Earth’s natural field, electrical installations, and other devices have created a multitude of waves that are now present in the atmosphere. This enables us to state that electricity from atmospheric air can be extracted manually, even without the need for any specialized tools or plans. We will discuss the specifics of current production using this method below.

Picture of a lightning-powered device

Wind turbines are long-known sources of alternative energy. They work by converting the force of wind into current. A wind generator is a device that can work for a long time and accumulate wind energy. This option is widely used in various countries: the Netherlands, Russia, the USA. But, a single wind turbine can supply a limited number of electrical appliances, so entire fields of wind turbines are installed to power cities or factories. There are both advantages and disadvantages in using this method. In particular, wind is an unstable value, so it is impossible to predict the level of voltage and accumulation of electricity. At the same time, it is a renewable source that does not harm the environment at all.

Wind turbines in the picture

Video: generating power from atmospheric pressure

Simple schemes

If you want to manually extract atmospheric electricity, you should think about different plans and diagrams. Some of them are so straightforward that even a non-technical inventor could easily realize them and design a crude installation.

It is significant to remember that contemporary power lines and grids ionize the airspace more, which raises the atmosphere’s electric potential. Learning how to extract and store it is all that’s left to do.

Using a metal plate as an antenna and the earth as a base is the most basic design. This kind of gadget can gather energy from the atmosphere and then disperse it for use in domestic chores.

Using extra storage devices or converters is not necessary when building such an installation. An electric potential is created between the antenna and the metal ground, and it tends to increase. However, it is very difficult to predict its strength because of its irregular magnitude.

Such a device works on a principle that is similar to that of lightning: a discharge occurs when the potential reaches its maximum. This makes it possible to extract a staggering amount of valuable resources from the earth and atmosphere.

The following benefits of the aforementioned plan should be highlighted:

  1. Simplicity of realization in home conditions. Such an experience can be easily performed in the home workshop, using improvised materials and tools.
  2. Cheapness. When creating a device, you will not have to buy expensive fixtures or assemblies. It is enough to find an ordinary metal plate with conductive properties.

However, there are also a number of noteworthy drawbacks in addition to the benefits. One of them is the significant risk that comes with not being able to estimate the amperage and pulse strength. When the system is operational, it can also generate an open ground loop that can draw lightning. This is the reason why the project hasn’t been widely adopted.

Atmospheric electricity with your own hands

By putting together a small coil, you can carry out a larger experiment and replicate Tesla’s experiment. The plan is shown below.

The coil itself can be wound around the marker (which has a diameter of approximately 25 mm) on the case; the wire’s cross section should be 0.14 mm, and the number of turns should be between 700 and 1000. There should be five turns of 1.5 mm diameter wire in the secondary winding. You will need approximately 50 meters of wire for the primary winding. Basically, the only parts that go into this coil are a resistor and a 2n2222 transistor, which serves as the device’s active component.

Even though the coil will be small, it will still be able to produce a small spark if you touch it with your finger, light a match or make a light bulb light up. You can wind the wire on any housing, the main thing is that there are no metal parts in it. Do not repeat the mistake that many people make. If you want to make it autonomous do not stick the battery inside the case, if there is a transistor inside, the coil works normally and almost does not heat up, but if there was a battery, the magnetic field that creates the Tesla transformer itself will affect the battery, and you will disable the transistor. The more carefully you wind the coils, the better the result will be, and in order to keep the coil with you longer, you can cover it with colorless nail polish.

Serious experiments are more expensive, time-consuming, and labor-intensive, but they still seem impressive on paper.

It’s likely that your kitchen has a ventilation duct that occasionally operates due to drafts even when it is turned off. It can be used to give a room free lighting. It can be made with readily available materials, and the video provides a detailed explanation of every step.

Diagram of a basic power plant:

Also read:

  • What electric current is called alternating current: where it is used
  • Electric field strength

Electricity from the ground

The earth is charged to 300,000 V, resembling a spherical capacitor. The surface is negatively charged inside, and positively charged outside in the ionosphere. The air serves as a barrier between things. Even with massive currents flowing through it, the potential difference doesn’t change.

This implies that a natural generator exists to restore the depleted charges. There is a magnetic field that can be used to draw electricity from the earth.

Establishing a dependable ground and connecting to the generator pole are the two steps in the process. If completing the first task is simple, the second one will require a lot of work.

Extraction from the air

You can use atmospheric electricity. The chance to utilize nature to one’s advantage during a thunderstorm draws a lot of people.

The planet’s field waves are also present in the atmosphere. It turns out that they don’t need to use incredibly sophisticated equipment to extract electricity from the air.

Here are a few techniques:

  • lightning batteries use the property of electric potential to accumulate;
  • wind generator converts wind power into electricity by operating for long periods of time;
  • ionizer (Chizhevsky chandelier) is a popular household appliance;
  • Stephen Mark"s TPU (toroidal) electricity generator;
  • Kapanadze generator – a non-fuel energy source.

Let’s take a closer look at a few of the gadgets.

Wind generators

The wind turbine generator is a widely used and acknowledged form of wind power. Many nations have been using these devices for a long time.

There aren’t many power supply requirements for the unit alone. Thus, in order to energize a large plant, more generators must be added. There are whole wind-turbine-equipped fields in Europe that are completely safe for the environment.

It is important to note that the inability to predict the voltage and current values in advance can be viewed as a drawback. As a result, it is impossible to predict how much electricity will build up because wind patterns are unpredictable.

Lightning batteries

A lightning battery is a device that uses atmospheric discharges to store potential.

The device’s scheme consists solely of a grounding and metal antenna; it does not contain any intricate accumulating or converting parts.

The device’s components start to exhibit potential, which eventually builds up. The natural element’s impact cannot be precisely predicted in advance, and its value is also uncertain.

It’s vital to be aware that this property can be extremely dangerous to use on your own since it creates a circuit that can attract lightning with voltages as high as 2000 volts.

S. Tesla"s toroidal generator. Brand

An invention by S. Markom has the capacity to produce electricity once it has been turned on for a while.

Electrical appliances can be powered by a TPU (toroidal) generator.

Three coils make up the design: an outer, an inner, and a control coil. It functions as a result of the magnetic vortex and resonant frequencies that arise and contribute to current generation. One can construct such a device on their own if they have drawn up the circuit correctly.

Kapanadze generator

The development of the generator, which produced a much higher power output than the circuit current, was based on the mystery transformer invented by Georgian inventor Kapanadze.

The fuel-free kapanadze generator is an illustration of modern technology.

The battery powers the startup, but subsequent operation is done on its own. Within the housing, ether dynamics and energy extracted from space are concentrated. The technology is private and protected by a patent. In essence, this represents a novel understanding of electricity and wave propagation—the process by which energy is moved from one medium particle to another.

Galvanic cell

Simple chemistry is the next technique. This is the most practical and comprehensible method for obtaining electricity for your home from the earth. You’ll need electrodes made of copper and zinc for this. They could be nails, pins, or plates. Galvanized iron is more easily found if copper is widely available, as zinc can present issues.

Your electrodes must be hammered into the earth at an equal distance from one another. Assume that the electrodes are 0.5 meters apart and 1 meter deep. In this instance, the cathode would be copper, and the anode would be zinc. One to 1.1 volts is the range at which such a cell can operate. This indicates that you must hammer 12 of these electrodes and connect them in series in order to extract 12 volts of electricity from the ground.

The area between the electrodes and the material between them determine how much current flows through the battery. The ground needs to be wet in order for the battery to generate current; this can be accomplished by watering it. Occasionally, salt or lye solution is poured into the zinc electrode. More electrodes can be hammered and connected in parallel to increase the current output. This is how all contemporary batteries and accumulators are set up.

Another intriguing implementation of such a battery using copper tubes and galvanized rods is shown in the diagram below.

However, the battery will eventually run out of power as the electrodes deteriorate.

The efficiency and comfort of your home’s insulation and heating systems can be significantly impacted by static electricity from the air, which is a surprising but important finding. Even though we frequently consider heating and insulation to be solely structural or mechanical issues, the existence of static electricity can have a subtle impact on these systems’ performance.

One of the most important lessons learned is that static electricity can affect how well insulating materials work. Over time, the effectiveness of insulating materials may be diminished by dust and other particles drawn to them by static electricity. Debris buildup has the potential to produce gaps in the insulation, which would allow heat to enter during the summer and escape during the winter.

Furthermore, because static electricity alters airflow, it can reduce the effectiveness of heating systems. Airborne particles carrying charge have the ability to adhere to the surfaces of heating ducts and vents, resulting in obstructions and decreased airflow. This may lead to uneven heating in the house and more stress on the heating system, which could result in higher energy costs and early wear and tear.

Thankfully, there are things homeowners can do to lessen the impact static electricity has on their insulation and heating systems. Investing in anti-static treatments for insulation materials can help stop static charge accumulation, extending the insulation’s useful life. Furthermore, routine cleaning of heating vents and ducts can support appropriate airflow and avoid obstructions brought on by charged particles.

All things considered, airborne static electricity may not seem like a big deal, but it can have a big impact on insulation and heating systems. Homeowners can guarantee that their houses stay cozy, energy-efficient, and well-insulated all year long by being aware of how static electricity interacts with various systems and taking preventative action to address it.

atmospheric electricity 11 (result 3)

▶ A device that sucks energy out of the ether 😁 "Electric Vampire" / Video by request of Viewers 😁 /

Free atmospheric electricity from a banned 1959 installation

What type of heating you would like to have in your home?
Share to friends
Anna Vasilieva
Rate author
vDomTeplo.com
Add a comment