APPLICATION OF THE AMPERE LAW IN ROCKET TECHNOLOGY AND ARTILLERY

Abstract

The development of physics leads to the development of many industries, as well as military equipment. Military actions taking place on planet Earth, uninvited “guests” from space - various celestial bodies such as meteorites, etc., push scientists to create new military technologies for the purpose of security. One of such technological military products is various missiles, including ballistic missiles and artillery devices. Electromagnetic weapons are weapons in which a magnetic field is used to give the projectile an initial velocity, or the energy of electromagnetic radiation is used directly to hit the target. In the first case, the magnetic field is used as an alternative to explosives in firearms. In the second case, the ability to induce high-voltage currents and disable electrical and electronic equipment as a result of the resulting overvoltage or causing pain effects or other effects in humans is used. Weapons of the second type are positioned as safe for people and serve to disable enemy equipment or render enemy manpower incapacitated. belongs to the category of non-lethal weapons [2-3]. The thrust force in almost all such aircraft is created by the energy of rocket fuels - gaseous, liquid, solid substances. Such devices are characterized by the fact that the thrust force acts until the fuel is completely burned or until the assigned task is completed, polluting the surrounding space. This work proposes a method for using electromagnetic phenomena to create thrust. For this purpose, two coils can be used: the first coil or group of coils is fixed to the body of the launch vehicle or on a fixed launcher, and the second coil on the same axis with the first coils, and they are fixed to the body of the rocket itself. It is proposed that all coils were made of superconductor material, because superconductors are capable of conducting electric current without resistance and without energy loss. The rocket is installed on an installation containing electronic installations. Here coil I is fixed with the help of stoppers installed on a wide range of carriers, which include: fixed installations, military ships, submarines, various types of aircraft, and coil II, made of high-temperature superconductor, is fixed in the rocket itself with a special stopper, which can be released at the right moment. With the help of special electronic devices, it is immediately released from the fastening (from the valves, stoppers, stopper) and under the action of a large Ampere force receives a large acceleration. Determining the characteristics of the coils and their geometric shape arrangement is a separate design study. According to Ampere's law, two coils will interact with the Ampere force, then coil II released from the stopper together with the rocket will receive acceleration. To study the mechanical motion of the rocket, in addition to other forces, first of all, it is necessary to know the initial force acting from coil I on coil II.