Coupling Gloomy Eyelets in the Nucleus of Cells and Forming Unknown Distinct Structure (UDS)

Austin journal of analytical and pharmaceutical chemistry Pub Date : 2023-06-13 DOI:10.26420/austinjanalpharmchem.2023.1155

Jean-Marc Sabatier, Farzan Amini

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Abstract

The purpose of this article is to study about the Coupling of Gloomy Eyelets inside the nucleus of cells. The Gloomy Eyelet consists of the nano distortion of space-time (with υi and τi denote volume and time) and the Latent Buoyancy force. The particular Helmholtz resonator (for υi and τi) can define for the distortion of space-time (for υi and τi) of Gloomy Eyelet. The Hamiltonian equation will be applied for the category of nucleus of cells including the numerous Gloomy Eyelets. The coupled Gloomy Eyelets can build the virtual mass. The virtual mass can be considered as the Unknown Distinct Structure (UDS) of human body organs and performs a unknown specific function. If failure occurs in one of the Unknown Distinct Structure (UDS), the conventional treatments may be less effective for ones. The UDS can be affected by the variation of gravitational, ultrasonic and radiation fields. The internal and external interactions of UDS can play a key role for human beings healthy. The Unstable and Transient conditions of Gloomy Eyelet of cell nucleus can be considered as a new approach for the study of the disturbance of cell.

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耦合细胞核中的阴暗小眼并形成未知的独特结构（UDS）

本文的目的是研究细胞核内的 "全球眼 "耦合。全球眼孔由纳米时空扭曲（υi 和 τi 表示体积和时间）和潜在浮力组成。特定的亥姆霍兹谐振器（对于 υi 和 τi）可以定义 "阴郁小眼 "的时空扭曲（对于 υi 和 τi）。哈密顿方程将应用于细胞核类别，其中包括众多的小宇宙眼。耦合的 "全球眼 "可以产生虚拟质量。虚拟质量可视为人体器官的未知独特结构（UDS），执行未知的特定功能。如果其中一个未知结构（UDS）出现故障，传统治疗方法的效果可能会大打折扣。不明结构会受到重力场、超声波场和辐射场变化的影响。UDS 的内部和外部相互作用对人体健康起着关键作用。细胞核 "阴郁小眼 "的不稳定和瞬变条件可被视为研究细胞干扰的一种新方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Austin journal of analytical and pharmaceutical chemistry

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