Has anyone here constructed an overunity system that works?

[AlienGrey]

The problem is newtons law's and all those 1600 vintage laws are out of date your quoting,
If the Ebons can travel here from Veda Reticulli then your quoting stuff you cant prove one way or the other
but in fact both instances Albert Einstein and Maxwell proved their was inconsistencys in all those old
Oxford university faculty doctoring edited published laws.

Sil

[kolbacict]

I just have looked  your school galvanometer. And I thought, is it possible to increase the sensitivity of the galvanometer using the Stovbunenko tooth effect? At least I haven't seen it.

[Ilya Tsimbaluk]

The talk of error consists in the notion of transformations

The talk of error consists in the notion of transformations

Mayer came to the most important conclusion that the body is governed by natural physical and chemical laws and, above all, by the law of conservation and transformation of energy. Returning from a trip, he wrote an article "On the quantitative and qualitative determination of forces" (Meyer designates energy by the term "force"), which he sent on June 16, 1841 to the journal "Annals of Physics".

In his writings, Mayer lists various types of energy: the kinetic energy of moving masses, the potential energy of a lifted load, internal, electrical and magnetic (it should be noted Mayer's brilliant intuition, who realized that electromagnetic phenomena also obey the law of conservation of energy).


oule's interest in this topic first arose after becoming acquainted with electrical machines that had just been invented. Joel was a man of practical mind. He was fascinated by the idea of ​​creating an eternal source of energy. He made a voltaic battery, started a primitive electric motor of his own design from it, and saw that it was impossible to get something out of nothing: the zinc in the battery was eaten away, and its replacement was quite expensive. Joel later proved to his own satisfaction that it was always cheaper to feed a horse than to change the zinc in the batteries, so that the horse would never be driven out by the electric motor. This prompted him to investigate the relationship between heat and energy of all kinds, and he set out to find out if there was an exact quantitative relationship between heat and mechanical energy. Joule devoted most of his life to this idea. He was able to roughly estimate the mechanical coefficient of heat from the experiments of Rumfoord, who recorded how much the temperature of a known mass of matter increased when, with the help of a horse team, the metal of a cannon barrel was drilled with a blunt drill. A more accurate result was obtained by Joule in an experiment on mixing water with a rod with blades.

https://docs.google.com/document/d/1DxiUiHeY8LLEXB_dJ4mhLFtoyMjsI5XuYpiYoLX86P0/edit?usp=sharing

https://docs.google.com/document/d/1dJehJcdPnRBfMDeDIZ1IasX2jq4C4ffh34tA8x_J7Wk/edit?usp=sharing

[Ilya Tsimbaluk]

I had to find articles in full on the history of the development of the law of conservation of energy. some excerpts I have marked here in bold. To make it clear. I also did a machine translation of the articles themselves.

The internal energy of a thermodynamic system can change in two ways: through work on the system and through heat exchange with the environment. The energy that the system (body) receives or loses in the process of heat exchange with the environment is called the amount of heat, or simply heat[1]. Heat is one of the basic thermodynamic quantities in classical phenomenological thermodynamics. The amount of heat is included in the standard mathematical formulations of the first and second principles of thermodynamics.

To change the internal energy of a system by means of heat exchange, work must also be done. However, it is not mechanical work, which is associated with moving the boundary of a macroscopic system. At the microscopic level, this work is carried out by the forces acting between the molecules at the contact boundary of a more heated body with a less heated one. In fact, in heat exchange, energy is transferred through electromagnetic interaction in collisions of molecules. Therefore, from the point of view of molecular-kinetic theory, the difference between work and heat is manifested only in the fact that the performance of mechanical work requires orderly motion of molecules on a macroscopic scale, while the transfer of energy from a more heated body to a less heated one does not require it.

Energy can also be transferred by radiation from one body to another without direct contact.

[Ilya Tsimbaluk]

So, I had to get into historical questions and also go into theory, but here's what the theory itself says - heat or thermal energy itself is transmitted electromagnetically. Which was established by Maxwell - light and heat are electromagnetic in nature and propagate in a physical vacuum. However, there are certain questions - are waves matter that propagates in a vacuum or are radio waves a change in the vacuum, i.e. waves consist of a building material?
Adherents of the theory of ether believe that just there is a certain filled space in which as in a fluid we produce disturbances. However, at one time the understanding of the Aether was hampered by a situation in which the Aether was considered stationary.  It is dynamic. Like the dynamic behavior of a liquid to the reaction of perturbation. Therefore, it has no stationary state and the mass, of which the physical vacuum itself consists, is just the cause of inertia.

Even if my idea regarding the structure of the vacuum is wrong, I can admit it, after Maxwell heat is already considered through electromagnetism. But so far no one considers that heat is transmitted by electromagnetism and electromagnetism itself is the cause of the motion of atoms and molecules or all that we consider Brownian motion.

all I am summarizing now in the conversation is that the process in Joule's experiment should not be considered through transformation. but through the course of two processes, processes in the physical and in the vacuum.