Abstract

The formation of space began with the formation of the first star, and then the formation of our Solar System ensued. This is how the evolution of stars and planets, in which chemical elements are synthesized, is described. The dimensions of the system are determined by the relationship of atomic matter with physical vacuum and gravitational forces of attraction. Both micro- and macrosystems have their own oscillation frequencies, and thus a continuous spectrum of different frequencies emerges and fills the entire space of the Universe; resonance is the most plausible mechanism underlying the interactions of the oscillations of these micro- and macrosystems. The development of the material world proceeds from the simple to the complex. The frequency of electromagnetic radiation of atomic hydrogen precedes the frequency of radiation of all subsequent chemical elements of the periodic table, and the rhythms of each subsequent element are harmonized with the vibrations of the hydrogen atom according to the resonance relations. This study touches upon global issues regarding the origin of chemical elements with the whole set of their stable and radioactive isotopes and their prevalence in the Universe. Some aspects of the constancy of the speed of light and mode oscillations on the Sun, as well as Schumann resonances, are addressed. Vibration is the single connection and the single source of motion in all this diversity.

中文翻译：

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地球和宇宙中化学元素起源的新概念。第1部分

摘要

空间的形成始于第一颗恒星的形成，然后是太阳系的形成。这就是合成化学元素的恒星和行星演化的描述方式。系统的尺寸由原子物质与物理真空和引力的关系确定。微观系统和宏观系统都有自己的振荡频率，因此出现了不同频率的连续频谱，并充满了整个宇宙。共振是这些微观系统和宏观系统之间相互作用相互作用的最合理的机制。物质世界的发展从简单到复杂。原子氢的电磁辐射频率先于元素周期表中所有后续化学元素的辐射频率，并且根据共振关系，使每个后续元素的节奏与氢原子的振动相协调。这项研究涉及与化学元素的起源有关的全球性问题，这些元素涉及整个化学元素的稳定和放射性同位素及其在宇宙中的普遍性。解决了光速恒定和太阳上的模式振荡以及舒曼共振的某些方面。在所有这些多样性中，振动是单个连接和单个运动源。并且根据共振关系使每个后续元素的节奏与氢原子的振动相协调。这项研究涉及与化学元素的起源有关的全球性问题，这些元素涉及整个化学元素的稳定和放射性同位素及其在宇宙中的普遍性。解决了光速恒定和太阳上的模式振荡以及舒曼共振的某些方面。在所有这些多样性中，振动是单个连接和单个运动源。并且根据共振关系使每个后续元素的节奏与氢原子的振动相协调。这项研究涉及与化学元素的起源有关的全球性问题，这些元素涉及整个化学元素的稳定和放射性同位素及其在宇宙中的普遍性。解决了光速恒定和太阳上的模式振荡以及舒曼共振的某些方面。在所有这些多样性中，振动是单个连接和单个运动源。已解决。在所有这些多样性中，振动是单个连接和单个运动源。已解决。在所有这些多样性中，振动是单个连接和单个运动源。