Mass of relativistic particle as a function of states of motion. Physical properties of accelerated motions by inertia

Authors

  • Valentine Oleinik

Keywords:

physical nature of particle mass, proper and forced motions, accelerated motions by inertia (AMI), mass as a function of motion states, equation for mass, special theory of relativity (STR), incompleteness of mechanics, physical properties of space-time, dynamic principle for proper motions

Abstract

The work is the completion of a series of articles devoted to the study of accelerated motions by inertia [1-15]. The main research results: the physical nature of accelerated motions by inertia (AMI) and particle masses is revealed; it is shown that they play leading roles in the play, which is called the stable development of matter; the cause of the difficulties that physics is now experiencing is established, and the right way to overcome them is found. The disclosure of the physical nature of AMI and the particle mass made it possible to establish the cause of a deep crisis of physical science. P.A.M. Dirac, one of the creators of quantum electrodynamics (QED), drew at-tention to the existence of a crisis in physics in the middle of the last century [16], [17] (p. 403). He argued that the basic equations of electrodynamics were incorrect, but did not explain the reason for the difficulties of QED. The reason is the incompleteness of the special theory of relativity (STR), which forms the foundation of QED. The incompleteness of STR is expressed in the fact that STR considers only forced accelerated motions and it is assumed that the particle mass is a constant parameter. AMI fell out of the field of view of SRT, although these movements of particles play an extremely important role in the development of matter. AMI are an attribute of matter, they occur with the acceleration of particles, but do not lead to energy loss of particles. AMI form such a functional dependence of the mass of particles on velocities and coordinates of particles, which ensures the sta-ble development of matter. AMI generate force fields with the help of which the interaction between particles occurs. It was shown that the particle mass depends not only on the particle velocity modulus, as it was assumed in pre-vious works, but also on the particle’s position in space, i.e. mass is a function of motion states. The existence of dependence of the particle mass on the position of the particle in space is of great importance for the evolution of matter, since the possibilities of matter to organize the stable development of its structural elements are ex-tremely expanded. The mass equation is derived from the energy conservation condition. It is a second-order partial differential equation. In the particular case, when the mass of the particle does not depend on the posi-tion of the particle in space, this equation transforms into an ordinary differential equation of the second order, obtained and studied in [14, 15]. The equation for the particle mass acts as a kind of dynamic principle for the proper motions of the particle. In physical content, the equation for mass is significantly different from the equations of forced motions. If the equation for mass serves to determine mass as a function of the state of motion of the particle, the equations of motion determine the development in time of the state of motion itself. The physical properties of accelerated motions by inertia are investigated, and proper and forced motions, which are dialectical opposites, are compared. There is a qualitative difference between the forces acting on a particle in forced and in its proper motions: in a forced motion, the force is the cause of acceleration, and its proper motions are the result of acceleration. A change in the mass of a particle with a change in the position of a particle in space causes the heterogeneity and non-isotropy of space and the heterogeneity of time. A new approach is formulated in relativistic mechanics, in which there are no difficulties with the incom-pleteness of the theory inherent to STR. Unlike STR, in the formulation of mechanics developed here, both proper motions of particles and forced ones are taken into account; not the motions of free, bare particles that do not exist in nature, but accelerated motions by inertia (AMI) — the motions of real, physical particles are considered as motions by inertia; the assumption that the particle mass is a constant parameter is not used; mass acts as a function of the state of motion; the functional dependence of the particle mass on the coordi-nates and velocities is formed by AMI and is determined by the equation for the mass, which guarantees the conservation of particle energy (in the absence of external field). Based on the results obtained, the following conclusion can be formulated. The reason for the crisis of physics is STR, which is the basis of electrodynamics. STR is an abstract mathematical scheme, which due to its in-completeness cannot describe physical reality. Matter, as a self-organizing, self-governing, thinking entity, pre-fers to develop in a completely different way than STR prescribes for it. The work is an extension and continua-tion of studies [22, 23] in the field of quantum electrodynamics.

References

Олейник В.П. и Прокофьев В.П. Вращательная инерция и ее физические следствия. Что такое грави-тация? // Физика сознания и жизни, космология и астрофизика. — 2008. — №2. — С.23-56.

Олейник В.П. Новый подход к проблеме движения: ускоренные движения по инерции // Физика со-знания и жизни, космология и астрофизика. — 2009. — №3. — С.24-56.

Олейник В.П. О физической природе гравитации. // Физика сознания и жизни, космология и астрофи-зика. — 2010. — №3. — С. 24-55.

Олейник В.П., Третяк О.В. Проблема инерции и антигравитация. // Физика сознания и жизни, космо-логия и астрофизика. — 2011. — №1. — С. 24-52.

Олейник В.П. О физической сущности вращательного движения. Квантовая картина движения клас-сических частиц. // Физика сознания и жизни, космология и астрофизика. — 2012. — №1. — С. 17-54.

Олейник В.П. Криволинейные движения по инерции и закон Кулона. // Физика сознания и жизни, кос-мология и астрофизика. — 2012. — №3. — С. 34–39.

Олейник В.П. О физической сущности явления криволинейного движения по инерции. Классическая частица как открытая самоорганизующаяся система. // Физика сознания и жизни, космология и аст-рофизика. — 2013. — №2. — С. 13-46.

Олейник В.П. Закон всемирного тяготения и криволинейное движение по инерции. О физической при-роде силы, регистрируемой в опыте Кавендиша. // Физика сознания и жизни, космология и астрофи-зика. — 2013. — №4. — С. 11-32.

Олейник В.П. Проблема Дирака. Обобщение уравнений Максвелла для электромагнитного поля. // Физика сознания и жизни, космология и астрофизика. — 2014. — №3. — С. 5–17.

Олейник В.П. Проблема Дирака, часть 2. Электромагнитное взаимодействие как прямое следствие законов механики // Физика сознания и жизни, космология и астрофизика. — 2014. — №4. — С. 5–23.

Олейник В.П. Проблема Дирака, часть 3. Электромагнитное поле и криволинейное движение по инерции. Приложение к модели атома и холодному синтезу ядер. // Физика сознания и жизни, космо-логия и астрофизика. — 2015. — №1. — С.32–61.

Олейник В.П. Решение проблемы Дирака: физические следствия. // Физика сознания и жизни, космо-логия и астрофизика. — 2016. — №1. — С.44–55.

Олейник В.П. Решение проблемы Фейнмана: физические следствия. Ускоренные движения по инер-ции и силы инерции // Физика сознания и жизни, космология и астрофизика. — 2017. — №1-2. — С.22-55.

Олейник В.П. Физическая природа массы частицы. Релятивистская механика на основе ускоренных движений по инерции. // Физика сознания и жизни, космология и астрофизика. — 2018. — №1-2. — С. 15-37.

Олейник В.П. Ускоренные движения по инерции и порождаемые ими физические свойства простран-ства-времени. // Физика сознания и жизни, космология и астрофизика. — 2018. — №3-4. — С. 22-38.

Дирак П.А.М. Собрание научных трудов. Т.IV. Гравитация и космология. Воспоминания и размыш-ления (лекции, научные статьи 1937-1984 гг.). / Под ред. А.Д. Суханова. — М.: Физматлит, 2005. – 784с.

Дирак П.А.М. Принципы квантовой механики. — М.: Наука, 1979.

Фейнман Р., Лейтон Р., Сэндс М. Фейнмановские лекции по физике. Т 1. Современная наука о приро-де. Законы механики. — М.: Мир, 1967.

Фейнман Р. Характер физических законов. — М.: «Наука», 1987. — С. 33–34.

Олейник В.П. Ускоренные движения по инерции: гравитация и аномальные явления. // Биоинформа-ционные и энергоинформационные технологии развития человека. / Под ред. Д.Н. Жданова. — Рос-сия, Барнаул: ООО «Статика», 2009. — Т.1. — С. 9-16.

Арепьев Ю.Д., Олейник В.П. Траектории ускоренного (криволинейного) движения классической ча-стицы по инерции // Вестник МАЭН, вып.7, апрель 2010 г., г. Барнаул / Под ред. Д.Н. Жданова. — Россия, Барнаул: ООО «Статика», 2010. — С. 13-20.

Олейник В.П. и Белоусов И.В. Проблемы квантовой электродинамики вакуума, диспергирующих сред и сильных полей. — Кишинев: Штиинца, 1983. — 256 стр.

Oleinik V.P. The Problem of Electron and Superluminal Signals. (Contemporary Fundamental Physics). — Nova Science Publishers, Inc., Huntington, New York, 2001. — 229 pages.

How to Cite

Oleinik, V. (2019). Mass of relativistic particle as a function of states of motion. Physical properties of accelerated motions by inertia. Physics of Consciousness and Life, Cosmology and Astrophysics, 19(1-2), 29–45. Retrieved from https://physics.socionic.info/index.php/physics/article/view/516

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