Scan to know paper details and author's profile Supreme Theory of Everything: Whole Universe in a Simple Formula Ulaanbaatar Tarzad Mongolian University of Science and Technology ABSTRACT One of the unsolved problems in science is the finding of the united theory, which explains everything in the universe. Scientists explore it in the infinitesimal orbiggest space. Here I have created a single fundamental theory of everything based on the open hysteresis of electromagnetism. Some researchers had known being whatever secret preserved in hysteresis of materials for a long time. But they can describe neither its mathematical definition nor internal secret. My theory shows brand-newly the universe from quantum mechanics to cosmology by a simple trigonometrical formula. The origin, fate, and a largest structure of the universe are described. I indicate that the diameter of the whole universe is approximately 60000 Mpc, which equals 195.7 billion light-years. Keywords: Open hysteresis, water structure, climate variability, turn-off point, and instability strips. Classification: FOR Code: 070499 Language: English LJP Copyright ID: 925653 Print ISSN: 2631-8490 Online ISSN: 2631-8504 London Journal of Research in Science: Natural and Formal 465U Volume 20 | Issue 5 | Compilation 1.0 © 2020. Ulaanbaatar Tarzad. This is a research/review paper, distributed under the terms of the Creative Commons Attribution-Noncom- mercial 4.0 Unported License http://creativecommons.org/licenses/by-nc/4.0/), permitting all noncommercial use, distribution, and reproduction in any medium, provided the original work is properly cited. Supreme Theory of Everything: Whole Universe in a Simple Formula Ulaanbaatar Tarzad ____________________________________________ ABSTRACT One of the unsolved problems in science is the finding of the united theory, which explains everything in the universe. Scientists explore it in the infinitesimal or biggest space. Here I have created a single fundamental theory of everything based on the open hysteresis of electromagnetism. Some researchers had known being whatever secret preserved in hysteresis of materials for a long time. But they can describe neither its mathematical definition nor internal secret. My theory shows brand- newly the universe from quantum mechanics to cosmology by a simple trigonometrical formula. The origin, fate, and a largest structure of the universe are described. I indicate that the diameter of the whole universe is approximately 60000 Mpc, which equals 195.7 billion light-years. Keywords: Open hysteresis, water structure, climate variability, turn-off point, and instability strips. Author: Department of Physics, School of Applied Sciences, Mongolian University of Science and Technology Ulaanbaatar, Mongolia, All Field Survey LLC, Mongolia. I. INTRODUCTION Modern science reality is that humanity waits something results, and scientists search the unified theory, consciousness, stars life cycle, dark energy, the fate of the universe. Scientists classify everything, if possible, such as a periodic system of elements, HRD of stars, Standard Model of elementary particles. There is a lot of theories and models concerning united theory. These theories may be very interested, but they are not perfect. Some part is very nice; another part is problematic. The scientific community is yet to find a united theory. According to my investigations we need to seek everything theory in the micro world, especially, in the origin of eternal motions of electromagnetism, which is described only by the mathematical circle. This motion is the motion of spin producing universe. The universe is rich in spin, consequently, in electromagnetism. Magnetization, which magnetizes a material, namely we are known as spins, magnetic spins, and spin angular momentum. London Journal of Research in Science: Natural and Formal Spins are physical cleanness theoretically as well as experimentally. The spins give rise to magnetic effects and can be studied by a variety of techniques and can be described theoretically. All magnetism mainly arises from the electrons of the atoms and molecules, of course, the nuclei and the quark also produce magnetic effects. Magnetism is essentially a quantum mechanical phenomenon, particularly the orbital motion of electrons as well as the spin of the electron. So, it is a only quantum mechanical effect. To build a unified theory, we need to study spin quantum mechanics, which is described by wave function (hysteresis of magnetism) of trigonometry and drives-up us also to cosmology because the small produce large. Without trigonometry, the mathematics have not able to judge its own path because it has expression: positive and negative infinities. However, nature has only a circle path coming back to starting point anytime by a hysteresis. “The concept of the circle is ubiquitous. It can be described mathematically, represented physically, and employed technologically. The circle is an elegant, abstract form that has been transformed by humans into tangible, practical forms to make our lives easier. And yet, no one has ever discovered a true mathematical circle” [1]. The mathematical circle is a hysteresis itself. We open closed hysteresis in the universe, from which some examples of smaller and larger phenomena are indicated in this paper. © 2020 London Journals Press Volume 20 | Issue 5 | Compilation 1.0 73 Supreme Theory of Everything indicates not only physical events, but the weirds as socio-economics, climate fluctuation in different time-scale or human destiny, etc. It can identify important connections between observations and model inputs and predictions. II. HYSTERESIS Sir James Alfred Ewing studied firstly the hysteresis of magnetic materials around 1890. Today, this kind of studies, models, and theories is a lot. Mayergoyz, I.D. (2003), [2] wrote: “The phenomenon of hysteresis has been with us for ages and has been attracting the attention of many investigators for a long time. The reason is that hysteresis is ubiquitous. It happens in many different areas of science. …However, the very meaning of hysteresis varies from one area to another, from paper to paper and from author to author. As a result, a stringent mathematical definition of hysteresis needs to avoid confusion and ambiguity. Such a definition will serve a twofold purpose: first, it will be a substitute for vague notions, and, second, it will pave the road for a more or less rigorous treatment of hysteresis”. Bertotti, G. (1998) [3] showed, “Hysteresis is at the heart of the behavior of magnetic materials. All applications rely heavily on particular aspects of hysteresis. The variety of working conditions involved brings to light the fascinating richness of phenomena that may arise and drive the behavior of different materials. On the other hand, a strong interest in hysteresis is not just the result of technological pressure. The comprehension of the physical mechanisms responsible for hysteresis and the development of adequate mathematical tools to describe it have attracted the attention of theoretical physicists and mathematicians for years. It is a beautiful example of a physical and mathematical problem of intriguing elegance and challenging complexity that is, at the same time, the source of pervading technological progress. Nobody can remain indifferent when considering the long but firm interdisciplinary chain that ties spin models of ferromagnetism to engineering applicatio ns of magnetic components ”. Mellodge, P. (2016) [4] wrote, “Hysteresis is the most complicated of all the nonlinearities presented because y is not simply a function of x, as it has been in the other cases. Rather, y is also a function of x˙. Unlike the other nonlinearities, there is no single mathematical expression for hysteresis. It is typically expressed graphically. The first thing to note about the relationship between x and y is that for a given x, there may be two possible values for y. The way to interpret the relationship is as follows. London Journal of Research in Science: Natural and Formal Consider a specific value for x shown in Figure 1 as x0. The question is whether the y value will take on value y1 or y2. Just knowing x0 is not enough information. The value of y depends on the where x came from. If x is increasing, then y = y2. If x is decreasing, then y = y1. The curve is followed in the direction given by the arrows and indicates whether to use the upper or lower part. Figure 1. Demonstrating how to interpret a hysteresis curve. A system with hysteresis is one that has memory. Its output depends on where it came from”. For this reason, leading scientists worked hard to express the mathematical formulations of the magnetic hysteresis, but generally experimental. Supreme Theory of Everything: Whole Universe in a Simple Formula 74 Volume 20 | Issue 5 | Compilation 1.0 © 2020 London Journals Press 2.1 Experimental and Theoretical Studies For example, one of the well-studied hysteresis is the Hall-effect, which can present all the physical peculiarity of reality. 2.2 Hall effects A classic example of hysteresis is the Hall effect. Visint in, A. [5] wrote: “A survey of past and ongoing research on mathematical modeling of hysteresis phenomena; it aims to illustrate some aspects of the mathematics of hysteresis and its applications, also in connection with partial differential equations (PDEs). Following M. Krasnosel’ ski, first, we introduce the concept of hysteresis operator and study some examples, then we establish connections with