Wow mooi om dit zo in beeld gebracht te zien worden, die hiërogliefen zijn inderdaad heel mysterieus omdat er geen gangbare verklaring is wat er word afgebeeld.

Здравствуйте, Если высокочастотный ток превращает в порошок даже самые твердые камни,то низкочастотный ток,наоборот,делает любой камень самым твёрдым. Например,все знают,что при подаче напряжения на кварцевую пластину пластина начнёт попеременно изменять свою полярность.Теперь,если мы начнём подавать на эту пластину кварца низкочастотный постоянный ток высокого напряжения,то скоро пластина кварца станет очень твёрдой. Другой пример:Если мы к пластине полупроводника КРЕМНИЙ приложим с двух сторон низкочастотный постоянный ток высокого напряжения,то скоро КРЕМНИЙ под действием низкочастотного тока высокого напряжения станет очень твёрдой.Что это означает - это означает,что в одну сторону КРЕМНИЙ будет проводить ток СО СВЕРХВЫСОКОЙ ПРОВОДИМОСТЬЮ,а в обратную сторону кремний вообще не будет проводить ток. Таким образом,из кремния можно достаточно простым и дешёвым способом делать ПОЛУПРОВОДНИКИ,имеющие СВЕРХВЫСОКУЮ ПРОВОДИМОСТЬ.

Hello, Nickel is a metal that is heat-resistant and does not rust, but has poor conductivity. Copper is a metal that conducts electricity well, but rusts quickly, has thermal noise, and has a low boiling point. We need to combine the best properties of nickel and copper to produce a heat-resistant alloy with good conductivity, which does not rust and has no thermal noise. A very good cheap antenna will be made from an alloy of nickel and copper,if you 62-65% by weight of nickel is brought to a boil by induction current,and then 38-35% of copper is added to the boiling mass of nickel and immediately reduces the boiling point of nickel to the boiling point of copper,and when you get a homogeneous mass,then cool it - you will get a good alloy for the antenna and for wires - doesn't make noise and doesn't rust. If you use an antenna made of such a heat-resistant alloy, then you can transmit a very clean signal over very long distances with a low transmitter power. To do this, you need to heat such an antenna with an additional power source connected to the heating element of the antenna so that the antenna for transmitting signals is well heated. Radio waves are electrons that, when hot, increase their speed and therefore travel much further in one second than with a cold transmitting antenna. When electrons (radio waves) become hot, they acquire the properties of both electrons and, at the same time, heat waves. That is, hot radio waves are both electrons and thermal waves, which have wavelengths from several nanometers to hundreds of billions of kilometers,depending on the state of hot temperature to which they are heated. Therefore, hot radio waves can easily and freely pass through concrete high-rise buildings and through granite mountains. If hot transmitting antennas made of such heat-resistant alloy are used in television and FM radio, the transmission of images and sound will be very clear over long distances. If you use hot antennas made of such a heat-resistant alloy in radio sports, then it will be almost impossible to determine where the signal is coming from, because the sound becomes very, very clear throughout the entire area of ​​a very large city. Germanium-based ultra-high conductivity semiconductor: We bring tantalum to a boil (28 - 30%), reduce the boiling point of tantalum to the boiling point of lead and add lead (3 - 5%), then slightly reduce the boiling point of this mass to the boiling point of germanium and add germanium (the remaining percentage is 65 - 69%). When the resulting alloy becomes homogeneous, then upon cooling it we obtain a semiconductor based on germanium with ultra-high conductivity. Adding thallium 1% or bismuth 1% gives p- and n- conductivity. To add thallium or bismuth, you need to heat the alloy to the boiling point of thallium or bismuth, add thallium or bismuth to this alloy, and when the mass of this alloy becomes homogeneous, then this alloy needs to be cooled. My parents,the Grand Duke of Kiev Alexander Milyutin and Princess of Denmark Anna Milyutina,live in the city of Den Haag in the Netherlands and I dream of meeting them soon. Thanks a lot, The Grand Duke of Kyiv and the Prince of Denmark,Pharaoh of Egypt Michael Milyutin.

Dit is Horus in de gedaante van een slang die geboren wordt uit een lotus waar een soort baarmoeder uit komt. Het wordt HN in de hamito-semitische taal genoemd.

Mooie beelden! Leuk commentaar ook!

Gaaf zeg.. wat een prachtige opname!