Living Science – 3. Decisive experiment. Word Rem. Читать онлайн. Newlib. NEWLIB.NET

Автор: Word Rem
Издательство: Издательские решения
Серия:
Жанр произведения: Биология
Год издания: 0
isbn: 9785005550248
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Without references to articles by an amateur experimenter. This is evidenced by the publication of Academician of the Russian Academy of Sciences E. Aleksandrov in the journal "Science and Life", No. 8, 2011. A modest gas-discharge lamp is replaced here by a synchrotron, a cardboard screen and a pinhole camera – photosensors with high-speed oscilloscopes.

      “… As a pulsed light source, a synchrotron radiation source (SR) – an electron storage ring“ Siberia-1 ”was used. SR of electrons accelerated to relativistic speeds (close to the speed of light) has a wide spectrum from infrared and visible to X-ray range. Radiation propagates in a narrow cone tangentially to the trajectory of electrons along the abstraction channel and is removed through a sapphire window into the atmosphere. There, the light is collected by a lens onto the photocathode of a fast photodetector. A beam of light on its way in a vacuum could be covered by a glass plate introduced by means of a magnetic drive. At the same time, according to the logic of the ballistic hypothesis, the light, which had previously supposedly had a double speed of 2C, after the window had to acquire the usual speed C ”.

      … Experience shows the speed of light, within an error of 0.5%, equal to the known constant C. In the experiment of these scientists, the question of how to divert light from elementary particles moving in the opposite direction is not even raised. The corpuscles rotate in the accelerator exclusively counterclockwise, at different speeds. There are no reports that the experiment was performed with light from particles accelerated by half, at three-quarters of the standard speed in the synchrotron. Comparing the results on a high-speed oscilloscope screen would dot the I. The only element of experience here is the glass plate. However, who said that such a screen is able to equalize the speed of photons to standard C?

      … One of the peculiarities of Living Science is that we consider the interaction of macroscopic bodies as a result of individual interactions of particles.

      What else can Living Science offer?

      According to Living Science, the Sun, all celestial bodies exchange the heat of the bowels through the gravitational tremors of the microparticles that fold them

      …The transfer of heat energy is possible not only by electromagnetic waves but also by means of the gravitational field. In the first case, according to the laws of classical quantum mechanics, the interaction is transmitted by quanta. What is the «quantum of the electromagnetic field» is spelled out in textbooks – a photon, an oscillating thread, for visible light having a length of 3 meters. Scientists write dully about quanta of static magnetic and electric fields. Sometimes «gluons» appear in the interaction schemes. How they help microparticles communicate over long distances is not clear. It is very difficult to imagine the forces of attraction going into infinity as a set of glomeruli. Until now, the experiment has not even measured the speed of propagation of gravitational waves. The simplest option is vacuum, the displacement of the ball is to measure the response speed of the second object. By default, in calculations of the position of celestial bodies, the speed of gravity is considered infinite. In another version, it is equal to the speed of light. And gravitational forces, most likely, represent a web of connections between elementary receivers and transmitters of the field – microparticles. In this case, heat transfer by means of gravitational interaction is quite possible.

      Experience with magnets. The metal magnetized powder in the thermostat is communicated by means of a magnetic field with a magnet that is heated by electricity. The temperature sensor does not detect heating in the thermostat

      Output…

      … It is believed that the radioactive elements contained in the volume of the planet are responsible for heating the earth's interior for 3.5 billion years. No matter how much you leaf through textbooks, you will not find a report on what exactly these elements are, what their number and half-life should be in order to maintain the temperature for so long. And why, finally, the peddling chain reaction did not blow our Earth to pieces. Our option. The planets are held together by the gravity of the sun. Through the same channel, by means of "remote diffusion" of microparticles, heat is transferred from the star's reactor to the bowels of the planet. The Earth is exchanging such latent heat with the Moon. Recall that Selena is not so cold. The temperature of the mantle is 200 C, and iron is boiled in the core. A certain share in the heat exchange between bodies is occupied by the so-called "hidden light". Only arrays of matter with the same spectrum, temperature, composition as the sender are capable of catching the hidden component of the beam. Such receivers-receivers are certain layers of the Sun (a recognized source of energy) and the core of the Earth.

      …A heated magnet must transfer heat to other magnets by means of its «quivering» magnetic field, even through obstacles. The author set up experiments. Within 0.1 C, when one of the magnets was heated at 120 C, at a distance of 4 cm, no heat transfer occurred. The result for the suspension of magnetized metal powder turned out to be negative. However, this does not mean that this phenomenon does not exist in nature.

      The world in a new light

      Does ether exist, the world's ocean, in which light waves roll?

      The classical scheme of the Michelson-Morley interferometer, a device that proved the absence of ether, is as follows. The light beam is split in half by a semi-transparent tilting mirror. One ray goes towards the ether stream, then back. The second ray is perpendicular to the flow, therefore it serves as a standard for the speed of the light wave. If the velocities do not coincide, the interference pattern should change. The figure shows that the position that the rays pass strictly perpendicular paths is incorrect. During the stroke along the arms of the interferometer, the rays are deflected by the ether stream. The detector receives waves initially deflected towards the ether stream. The scheme for constructing a real interference pattern is more complicated than Michelson's drawings.

      If the ether is carried away by the beam, then the flow velocity is 100 km. with. This value is consistent with the speed of the Earth’s revolution around the center of the Galaxy, 200—220 km. with. (taking into account that the natural rotation of the device together with the planet is an angle of 90 degrees). Why wasn’t it noticed earlier? In any operation of laser communication systems, the system is «brought to zero». This rule applies to all devices. A more plausible explanation. During the day, the air in the room where the experiments are carried out warms up. A lens is formed that distorts the beam. Third version. The ceiling and floor surfaces of the room, parallel to the laser beam, have the properties of «attracting» or «repelling» light. The lines of the diffraction grating have the same properties.

      Figure above. The author’s experience with the deflection of a laser beam due to entrainment by the ether. 1. Laser (rigidly fixed, having a remote power source and switch, laser pointer). 2. Laser beam when turned on at 9 o’clock in the morning. 3. Beam when the laser is turned on at 17 o’clock. For clarity, the beam deflection angle is increased. 4. Place the beam mark on the screen at 9 o’clock in the morning. 5. Place of the beam mark at 17 o’clock. The screen and the laser are separated by a distance of 90 m. The difference between the positions of the light spot in the morning and in the evening (during five days of research) is 3 cm. 1. Light source 2. Detector (screen for observing the interference pattern). 3. Beam initially reflected perpendicular to the interferometer arm and deflected by the ether flow to the left. 4. A ray emitted towards the stream of ether, and therefore participating in the construction of an interference picture. 5. Beam reflected from the mirror of the interferometer arm, presumably directed along the flow. This ray is also bent by the ether.

      The light is in antiphase. Addition of vectors E and B in superposition

      Installation for detecting hidden light. 1,2 – antiphase rays 3. source