Gravity control. 1.

Gravity control

To understand, a person needs to explore everything himself.

Purpose: to Know the essence of gravity

Our task is to see what others do not notice and do not want to recognize. We are not going to rely on all well-known truth. We will proceed from the fact that we do not know or believe them. How else would you find the truth? Only to come to it very. «It is better to know the truth half, but on their own, than to know it entirely, but learn from other people’s words and learn how to parrot.” (Romain Rolland)

Everyone knows that the force of gravity depends on the mass of bodies and the distance between them. We will try to find out what else can affect the gravity of the system. This is how we can come to the very essence of gravity. And this will help us “Raznobrazie torsion balance”, those which are doctor of physico-mathematical Sciences Nikolay Aleksandrovich Kozyrev studied. We will simply study the gravitational effect of various bodies, energy and States on the light, non-magnetic arrow of the device with a torsion suspension.

Equipment for the study of Ether.


For experiments was used raznobrazie Kozyrev’s torsion balance (a device), it is our basic equipment for the study of gravity. The diameter of the transparent plastic body weights 220 mm, height 95 mm.On top of the body is closed with a glass, sufficiently massive cover (which has a good resonant property), which is attached to the pointer arrow, (which can be plastic or wooden, weighing less than 0.1 g) suspended on a thin nylon thread, diameter less than 0.05 mm. counterweight arrow lead. For experiments with rotation, used a table belt sander with a non-magnetic flywheel — grinding circle Distance between the device and the flywheel of the machine is about 30 mm. For reproducibility of experiments, using different versions of the instrument. The machine has two flywheels fixed to one shaft, located on both sides of the motor, located in the middle. The diameter of the flywheel 150 mm. Weight about a kilogram. Its linear speed at nominal rotation is 158 km/h. In order to limit the third-party effects on the course of the experiments, there were no directed sunlight in the room, foreign electrical appliances were turned off. The direction of rotation was changed by turning the machine 180 degrees relative to the device. The experiments were carried out in Novosibirsk from June 2017. until June 2018. The scales in the conventional position “0” was sent North (from South to North). The table grinder was located to the right of the conventional «0º» arrow of the device, at 50º — 60º. To conduct experiments with high temperatures, a burning, wax candle was used. For experiments with low temperatures, ice was used, with a temperature of-17ºC. Protective screen is made of iron sheet, thickness 0,5 mm. Before and during experiments, carried out the alignment of the potentials of static electricity between the observer and equipment.

Gravitational experiments with rotation



During the experiments, the following was observed. Being in close proximity to the device, the switched-off and non-rotating machine did not have any impact on the arrow of the device.

Now experiments with the rotation — the rotation of the circle clockwise from the arrow view of the device: Turn on the machine. There is an increase in flywheel rpm to 2800 rpm. Fix minor eddy currents of air around the flywheel. We observe how the rotating flywheel (cause), «pushes» hidden in the device arrow (consequence) from the conventional position «0º», in the opposite direction. Further, it is surprising-when the motor is turned off (with 2800 rpm) and, accordingly, reducing the rotation speed of the flywheel of the machine, the arrow moves rapidly to the flywheel and even significantly crosses the axis of rotation of the flywheel, stopping at 30º to the left of this axis. Then, as the deceleration of rotation, with a speed of less than 1900 rpm (linear speed of 107 km/h), the hand again loses touch with the rotation and moves away from the flywheel in the opposite direction. At the lowest speed returns to the original position «0»

Now unfold the machine, and have already counterclockwise rotation relative to the device. Turn on the machine, the flywheel begins to rotate up to 2800 rpm, while the arrow is attracted to the flywheel. It continues to move almost until the center of gravity of the flywheel is indicated, and stops in this direction, when the nominal speed of rotation of the machine is reached. After switching off the electric motor, and the speed of the flywheel falls, the hand vigorously turns away from the flywheel in the opposite direction. Further, with a decrease in the speed of the flywheel less than 2580 rpm (linear speed 146 km/h), the arrow approaches the flywheel. When the rotation reaches 1900 rpm, and until it stops completely, the arrow moves to the initial position «0º».

Further, the experiment was repeated with a light rotating disk weighing 1G, 27 mm in diameter, at 35,000 rpm. (linear speed 356 km/h.) the reaction of the device was, but insignificant, and was hardly recorded.

Gravitational experiments with the screen.



Let’s repeat the experiments with the rotating flywheel. Only now between the flywheel weights and install the screen protector is made of sheet iron with a thickness of 0.5 mm. Screen and a large stock of hides the machine from the device. Turn the motor clockwise eye from weights, and a jump of gravity of the instrument pointer with the flywheel to set the regular speed. Gaining the necessary momentum, there is an effect of repulsion of the instrument pointer field of the flywheel. Turn off the electric motor. There is a strong, short-term jump in the direction of strengthening the repulsion of the arrow from the field of the flywheel. As the speed of rotation decelerates, on the contrary, there is the effect of attraction of the handwheel, which is stored until the rotation stops completely. Also tried to put the device in a thick-walled steel container, and the result was the same as with iron sheet.

We use the capabilities of the Ether to operate the pump.

Now let’s try to use the results of experiments with rotation, more practical. Put the machine inside a closed cardboard box. Perpendicular to the axis of rotation of the flywheel, install a cardboard tube, 100mm in diameter and 600mm in length. To the top of the pipe hole attach a piece of cotton thread, length 90mm so that the thread would simply hang. Isolate the room from the effects of noticeable air flows. After enduring a couple of minutes, make sure in the rest of the thread, noting its original position. Turn on the machine. And we observe the movement of the air direction inside the pipe in strict accordance with our previous experiences. When you turn off the machine, the air begins to move in the opposite direction. Thus, we got a kind of pump that uses the gravitational force of the ether, and is able to pump air. At the same time, the pumped medium does not come into contact with the moving parts of the pump. Our peculiar gravity pump, can be placed simply next to the pipe or hose with the pumped medium. That’s enough for his work. The direction of rotation of the flywheel can change the direction of motion of the pumped medium. Let’s try to pump water. Take two plastic bottles, connect their containers with two flexible transparent silicone hoses. One hose will be used as part of the pump, the other will level the water level in the bottles. Fill the system with water bottles, but add a little KMnO₄ (potassium permanganate) to one bottle. The pump hose is placed perpendicular to the axis of rotation of the flywheel of the machine, but not immediately, and after turning on the machine and set its nominal speed. Having made all the necessary manipulations, we find the transfer of colored water from one bottle to another strictly in the direction of rotation of the flywheel. Our pump is not in contact with the pumped liquid, but it works.

Changes in Ether density at low and high temperatures.

Next, we will conduct an experience with our device and the fire of a small wax candle. Ignite the candle, located at a distance of 100 mm from the device. After 3 seconds, there is a strong attraction to the burning candle. Remove the candle, at the same time extinguishing it. And we observe that the arrow does not immediately return to its original position, and a few seconds continues to point to the point where the fire was previously. Space remembers the fire, which already there is no, as there is no and his source. Now let’s check the “memory“ of the space again. Let’s light a match and bring it to the device. The first seconds of the hand is not responding. After 3 seconds of burning, we’ll put out the match and remove it. We observe the beginning of the movement of the arrow to the burning point. The arrow is moving accelerating. Having reached the point near the burning point, the arrow remains there for some time.

And now we will conduct experiments with the use of a protective iron screen. Set the protective screen at a distance of 50-100 mm. from the device, (blocking light and heat radiation of the burning candle in the direction of the device). Light a candle. We observe how the arrow is rapidly moving towards the lit candle (but slower than in the previous experience without the screen). Now put the device in a steel container (steel 10 liter tank), the thickness of the walls of the container is 1mm. Place the candle at a distance of 50mm from the wall of the container, from it to the extreme point of the device distance of 30mm. Light a candle. And again, the arrow of the device moves in the direction of burning, much less intensively, but moves, despite the light and thermal insulation from the candle.

Let’s try to use a protective foil shield. N..Kozyrev noticed that the ether penetrates the aluminum with a factor of 0.5. Place the device on a sheet of aluminum foil twice the area of the device. Bend in half with another piece of foil the size of 300 x 600mm. She’s part of the sheet is placed vertically to the device, on the other, the horizontal part will put a lighted candle. The arrow does not react to burning. In a few minutes the experiment, the arrow only swung in the opposite direction, returning to the original position.

Now experience with low temperature. Put the ice in a plastic bottle next to the device. Immediately observe the intense deviation of the device arrows in the opposite direction from the ice tank. The arrow turned in the opposite direction at 180º. You can place the ice at any point near the device, and always the arrow will turn away from the cooled body. In this case, turning the lead counterweight to the cooled object. Repeating the experience with the use of a shield showed a repetition of pushing the arrow away from the cold, but three times slower and weaker than without the screen.

Experience with massive steel cargo

For this experience, we use a set of weights for the barbell and dumbbells. Recruit loads of over 20 kg. Disposable 20 mm from the device. The arrow twitched at the process of appearance of goods, returned to its original position. More did not react.

Gravity of light.


To carry out the experiment with light, the weakest led flashlight was used, which could be found. Weak and led-to avoid the occurrence of convective flows. The scale of the device (its outer part and the surface outside the device) was illuminated by a directed beam of light flashlight at a distance of 45º from the arrow of the device on the scale of the device. The beam is usually directed vertically, from top to bottom. But changing the angle of the light beam did not affect the results. The distance from the lamp to the device varied from 10 mm to 300 mm. In addition, for thermal insulation, between the light source and the cover of the device was installed a glass screen with a thickness of 4 mm. when lighting the scale of the device, the arrow immediately began to react to the light. In all cases, the arrow was moving towards the beam of light.

Magnetic and gravitational field.

Let’s check the effect of the magnetic field on the arrow of the device. Collect the battery of neodymium magnets, and place it in 40 degrees from the resting arrow device. Immediately notice quite clear movement of the arrow to the process of appearance of magnets. After moving 10 degrees towards the magnets, the hand is delayed for 1 minute and then returns to its original position. The result is quite predictable, but the arrow is delayed for a little longer than in other experiments that do not use energy.

Well-known experiment of Kozyrev with tea and sugar.

Take a Cup of tea with ambient temperature. Place it near the device. The arrow, reacting to the process of appearance of a new object, returns to a state of rest. Add sugar and stir. The arrow moves vigorously to the mug with the solution, and points to the mug. Throughout the mixing process, it is located directly near our object of observation. After dissolution and termination of the liquid movement, the arrow returns to its original position. Further, in the second part.

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