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Journal of Environment and Health Science (ISSN : 2413-1628)

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 楼主| 发表于 2020-12-12 15:55:36 | 显示全部楼层
1. When the charged micro-particles beams (including proton or electron beams --- it is assumed that the atoms after the electronic acceleration process is closed to the karyorrhexis condition in particle collider facility) collides with the materials of neutral atoms, under the condition that the law of electromagnetic induction can be ignored, the kinetic mechanics of a beam of charged micro-particles only conforms to the principle of fluid mechanics (such as pressure calculations), and is not applicable on the mechanical energy law of solid collision (such as conservation of momentum).When the pressures produced by the beams of charged particles is enough, it is able to collide the nucleus of atoms, achieving the karyorrhexis of nucleus atoms. There are two reasons: the neutral magnetic field in atoms shields the approaching charged micro-particles; the dark matter underlay in the fourth dimension space of the atoms materials being collided also affects the motion of a beam of charged micro-particles. Once a charged micro-particles stream approaches the aggregation of dark matter, dark matter produces a non-linear resistance buffer force. These two forces lead the charged micro-particles pass along the sides of atoms materials, so that only the principle of fluid mechanics is applicable.

2. From the viewpoint of force analysis on micro-particles, the momentum theorem  is applicable between two objects’ collision only if the two objects are endowed with the forces of the same nature. In this physical case, the charged micro-particles beams are drived by Coulomb force, wherease the atoms substances is given the mechanical force (it is unreasonable to conduct force analysis separately on the necleus or electron within the neutral atom in this physical simulation case). Additionally, the dark matter produces non-linear buffer mutual forces among micro-objects including atoms or molecules, which leads the physical simulation of momentum theorem and conservation theorem of mechanical energy to be not applicable again. Consequently, the momentum theorem and conservation theorem of mechanical energy is applicable on the macro-physical solid objects only as approximate calculations, but is not applicable on the micro-physical simulations of particles motion.  

3. Dark matter is a kind of energy binder underlay in the fourth dimensional space that polymerizes atoms, molecules and the other micro-particles of three-dimension spaces, which makes these micro-particles form an aggregate like a necklace, and thus produces a kind of torsion force, which is called space-time torsion. This conforms to the torque theorem of materials in mechanics. Gravitation, Van der Waals force and inter-atomic force all conforms to the nature of space-time torsion. The stable materials assembly binding by dark matter produces a non-linear buffer force against the external destructive force, which is the principle of torque theorem. The adhesive force of dark matter meets the principle of fluid mechanics. In this article, the torque theorem of solid materials in mechanics is introduced as an example, which is more stable and less disturbance by the other external forces as compared to atmospheric and liquid materials. Because of the existence of dark matter, the conversion of energy between different natures (such as conversion between mechanical energy and magnetic energy) must be based on the calculations of four-dimensional space. The conversion theorem based only on the calculation of three-dimensional space can hardly stand.

4.The principle of anti-matter. The inter-atomic forces, except that the force of covalent bond is the Coulomb force between symmetric three-dimension spaces, the rest forces can be classified as the above mechanics. Covalent bond force is a Coulomb force between two symmetric three-dimensional spaces. In our three-dimension space, the protons electrons are positively charged and the electrons are negatively charged; the correspondingly symmetric three-dimensional space is called antimatter, in which the protons are negatively charged and the electrons are positively charged.When discussing the motion law and force analysis of the micro-particles inside the atom, we often simplify it as the self rotation motion of the negative charge electron around the positive charge nucleus. From the force analysis of at a central point of electrons, one is the centrifugal force, and the other is the centripetal force generated by positive and negative charges, so as to achieve force balance; However, when the force analysis is conducted on nucleus, positive charge nucleus is subjected to the pulling force produced by Coulomb force correspondingly to the centripetal force, how to achieve the equilibrium of force analysis? This question is particularly evident in hydrogen atoms of mono-atomic form, such as stellar matter. For the further discussion of atomic physics, why electrons and protons in atoms (such as radioactive elements) cannot merge and neutralize due to the mutual attraction of Coulomb force in atoms after half-life of atomic decay? Clearly, the negative and positive charged particles move away from each other and leaving out of the atoms at high speed. These questions can only be resolved by presenting the anti-matter principles between two symmetric space of three-dimensional along the fourth dimension in this article. Next let’s discuss further for more complex cases. For example, there are two covalently bonded atoms (atom1 and atom2). There are electron 1 and proton 1 in atom 1 ; and electron 2 and proton 2 in atom 2, respectively. The negatively charged electron 1 is pulled and paired by the positively charged electron in its correspondingly symmetric three-dimensional space; is also pulled and paired by positively charged proton 2 in atom 2 due to the covalent bond; the positively charged proton 2 is pulled and paired by the negatively charged electron 2 in atom 2; then the negatively charged electron 2 is pulled and paired by the positively charged electron in its correspondingly symmetric three-dimensional space. This series relationship also exists on electron 2 - proton 1 - electron 1. It's like a series of batteries, from positive to negative, positive to negative... Cyclic connection;

5. The basic unit of elementary micro-particle partition and classification should be based on the basic unit of Coulomb force, which can be divided into three categories only: proton, electron and neutron. The mass M of elementary particles in three-dimensional space is a compound trigonometric function of time variable T and natural constant e (≈ 2.718281828459045). The smaller micro-particles (such as Quark) partitioned by the large particle collider technology are the proportional/partial mass of the elementary micro-particles occurring in the three-dimensional space at a certain time. Therefore, the physical parameters such as mass and charge in the experimental results should be defined as a variable that comforts to the probability distribution law in Statistics (different from the constant or irregular variables). Consequently, this kind of research method and technology should focus on the exploration of the movement law of elementary micro-particles on the four-dimensional axis, which is given more application significance, such as the foundation research of new materials synthesis.
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 楼主| 发表于 2020-12-12 15:57:19 | 显示全部楼层
1.带电微观粒子束(其中包括质子或电子束---在大型粒子对撞机中经过电子加速器程序之后的带电微观粒子可以接近或近似认为达到了原子裂解状态)碰撞中性的原子物质,在电磁感应定律可以忽略不计的条件下, 一束带电微观粒子流的运动力学从概率统计上的规律是只符合流体力学原理(比如压强),不符合固体碰撞机械能规律(比如没有动量守恒定理之类)。从一束带电微观粒子流来分析,当其产生的压强足够大,可以使得被碰撞的中性原子破裂,撞击原子内部的质子或中子,从而产生核裂解。其中的原因是中性的原子内部能量场不仅对前来撞击的带电粒子形成屏蔽作用,而且被碰撞的原子物质集合体还受到第四维度空间的暗物质的作用,当一束带电微观粒子流一旦接近暗物质的集合体,暗物质则产生一种非直线型抵抗缓冲力。以上两种作用使带电粒子从原子物质的侧边擦过,从而只有流体力学的原理;
2.从力学角度分析,两个物体之间碰撞,只有在两个物体都赋予同性质力的条件下,才能适用于动量定理。 带电质子(或电子)束碰撞中性的原子,前者为库仑力,后者为机械力(不应分割中性原子中的原子核与电子做受力分析,这不科学),两者力的性质不同,不适用于动量定理计算式。此外,微观原子或是分子之间由于暗物质作用而产生的一种非直线性缓冲相互作用力,使得动量定理和机械能守恒定理模拟所要求的物理条件变得不再适用。因此动量定理和机械能守恒定理仅仅适用于宏观物理固体物体,并且是一种近似计算, 并不适用于微观物理粒子运动模拟条件。
3. 暗物质为第四维度空间中,聚合原子、分子等三维空间微观粒子的能量粘合剂,使得这类粒子像串项链一样生成集合体,从而产生了一种扭力,称为时空扭力,在力学上符合材料的扭矩定理。万有引力、范德华力、原子间作用力都符合时空扭力的性质。稳定型的暗物质微观粒子集合体相对于外来作用破坏力产生非直线型缓冲对抗力,这就是扭矩定理的产生原理。暗物质的粘合力符合流体力学的定理;本文把固体材料中的扭矩定理作为例子,与气态、液态物质相比更为稳定,受到较少其它外力因素干扰。暗物质的存在,使得能量在不同性质间(比如机械能与磁场能之间)的转换必须建立在四维空间上,仅仅是三维空间中的转换定理是无法成立的。
4. 反物质原理。原子间作用力,除了共价键力是对称时空之间的库仑力性质,其余的都可以归为上述力学。共价键力是两个对称三维空间之间的库仑力作用。其中我们所在的三维空间质子带正电荷、电子带负电荷;则与它对应的对称三维空间中的质子带负电荷、电子带正电荷,即为反物质。在讨论原子内部粒子运动规律和受力分析时候,我们常常简化为负电荷电子围绕正电荷原子核做高速自旋转运动。从电子做单点受力分析,一方面是离心力的作用,另一方面是正负电荷产生的向心力作用,从而实现受力平衡;但是从原子核做单点受力分析,正电荷原子核受到库仑力产生的与向心力对应的拉力,如何做平衡受力分析?这个问题在单原子形态存在的氢原子(比如恒星天体物质)中尤其明显。更进一步讨论原子物理之后,原子(比如放射性元素)在半衰期后为何正负粒子之间不会由于库仑力的相互吸引力而在原子内部合并中和?而是带电粒子高速远离并射出原子外?这些命题都必须借助本文提出的对称三维物质空间中的反物质原理才能解决。再进一步讨论更为复杂的情景:比如两个共价键配对的原子。原子1中有电子1和质子1;原子2中有电子2和质子2。 其中负电荷电子1在第四维度轴上受其对应的对称三维时空中对应的正电荷电子牵引,并在自身三维时空中形成共价键的原子2中的其中一个正电荷质子2可以配对牵引,而这个正电荷质子2又可与自身原子中的另一个对应负电荷电子2牵引,最后这个负电荷电子2又在第四维度轴上受其对应的对称三维时空中正电荷电子牵引配对。这个串联关系同样作用于电子2-质子1-电子1. 这就像多个串联电池一样正负极、正负极。。。循环连接。
5. 微观粒子的最基本分割单位应以库仑力的基本单位作为基准而划分,仅为质子、电子、中子三类。基本微观粒子在第四维度轴上做随机型几何波动,因此其质量在三维空间不是恒定的,即基本粒子在三维空间的质量M为时间变量T与自然常数e(≈ 2.718281828459045)的复合三角函数。使用大型粒子对撞机技术对基本粒子进行分割之后的更为细小的微观粒子(比如夸克)为基本微观粒子在某一特定时间点出现在三维空间的质量,因此其实验结果中的质量与电荷量等物理参数应当定义为在统计学上服从概率分布的一种变量(与恒定的常量或是无规律的变量相区别),从而反映出了基本微观粒子在第四维度轴的运动规律,所以该类研究方法与技术应侧重于基本微观粒子在四维度轴上运动规律的探究更为具备现实的意义,比如新材料的基础型研究。
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 楼主| 发表于 2020-12-21 09:56:53 | 显示全部楼层
最近看了一些关于新药的新闻报道的特征描述,提出以下学术观点:本文在之前学术论文《新陈代谢组学》中一直提出使用同工酶最为指示性生化指标对病理进行分析才保证其稳定、可靠的表现型特征。如果是选用mRNA或是tRNA作为指示性生化分子,在此基础上对最终表现出来的抗体是否呈现阳性进行相关性分析,不会有长期稳定的正相关特性。
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 楼主| 发表于 2020-12-21 10:18:09 | 显示全部楼层
最近看了一些关于新药的新闻报道的特征描述,提出以下学术观点:本文在之前学术论文《新陈代谢组学》中一直提出使用同工酶最为指示性生化指标对病理进行分析才保证其长期稳定、可靠的表现型特征。如果是选用mRNA或是tRNA作为指示性生化分子,在此基础上对最终表现出来的抗体是否呈现阳性进行相关性分析,不会有长期稳定的正相关特性,这对于疫苗抗体的有效性分析尤其重要。因此这类疫苗抗体仅仅类似于西药,产生短期治疗效果。

Recently, I have read the biochemical characteristics of some News reports about new drugs, and presented the following academic viewpoints: in the previous academic paper of metabolomics, it is proposed that the selection of isozymes as the indicative biochemical molecules for pathological analysis mostly relates its phenotype characteristics, which is stable and less environmental sensitive in the long-term. If medicines research chooses mRNA or tRNA as biochemical indicator, it is not expected to show a long-term stable and positive correlation to the eventual phenotype of antibody against virus, and this is especially for the analysis of immunology generated by vaccine inoculation. The vaccine produced on the later indicator is similar to biochemical medicines only, which plays the role in remedy in the short term.
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 楼主| 发表于 2020-12-21 10:55:33 | 显示全部楼层
最近看了一些关于新药的新闻报道的特征描述,提出以下学术观点:本文在之前学术论文《新陈代谢组学》中一直提出使用同工酶最为指示性生化指标对病理进行分析才保证其长期稳定、可靠的表现型特征,不容易受制于环境条件的影响。如果是选用mRNA或是tRNA作为指示性生化分子,在此基础上对最终表现出来的抗体是否呈现阳性进行相关性分析,不会有长期稳定的正相关特性,而且容易受制于环境条件的影响(比如测试前期的饮食、生理作息时间等也会对测试结果产生显著影响)。这对于疫苗抗体的有效性分析尤其重要。因此这类疫苗抗体仅仅类似于西药,产生短期治疗效果。

Recently, I have read the biochemical characteristics of some News reports about new drugs, and presented the following academic viewpoints: in the previous academic paper of metabolomics, it is proposed that the selection of isozymes as the indicative biochemical molecules for pathological analysis mostly relates its phenotype characteristics, which is stable and less environmental sensitive in the long-term. If medicines research chooses mRNA or tRNA as biochemical indicator, it is not expected to show a long-term stable and positive correlation to the eventual phenotype of antibody against virus, and is suscitible to environmental conditions (such as diet and physiological work-rest timetable may significantly influence the results of bio-tests on mRNA) , and this is especially for the analysis of immunology generated by vaccine inoculation. The vaccine produced on the basis of the later indicator is similar to biochemical medicines only, which plays the role in remedy in the short term.
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 楼主| 发表于 2020-12-21 12:19:59 | 显示全部楼层
新陈代谢组学的补充学术观点:
细胞结构生物中DNA分子应当准确定义为物质遗传信息的主要载体。因为细胞是有智力的,遗传过程中除了物质遗传信息,还有精神记忆机制。这在我之前的论文中已经论述。那么在此后,细胞中开始了复杂的新陈代谢过程,这里可以区分为初级代谢生化分子(如tRNA),次级代谢生化分子(如本文在植物逆境生理中论述的glutamic acid),和最终代谢生化分子(如多糖化合物)。其中不可缺少的就是酶。酶是细胞生物中对新陈代谢生化过程进行调节的首要生化指标。初级和次级代谢生化分子既可以受遗传DNA影响、也可以受细胞环境的影响而显著发生变异特性,但是细胞生理功能的调节,仅仅通过调节生物酶的合成和分泌作为生化反应链中首要途径。正如本文已经论述多细胞高等智慧生物的思维局限于三维思维能力,而单细胞生物的智力思维能力应该仅仅停留在识别和运用生物酶而已。
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 楼主| 发表于 2020-12-21 12:24:51 | 显示全部楼层
新陈代谢组学的补充学术观点:
细胞结构生物中DNA分子应当准确定义为物质遗传信息的主要载体。因为细胞是有智力的,遗传过程中除了物质遗传信息,还有精神记忆机制。这在我之前的论文中已经论述。那么在此后,细胞中开始了复杂的新陈代谢过程,这里可以区分为初级代谢生化分子(如tRNA),次级代谢生化分子(如本文在植物逆境生理中论述的glutamic acid),和最终代谢生化分子(如多糖化合物)。其中不可缺少的就是酶。酶是细胞生物中对新陈代谢生化过程进行调节的首要生化指标。初级和次级代谢生化分子既可以受遗传DNA影响、也可以受细胞环境的影响而显著发生变异特性,但是细胞生理功能的调节,仅仅通过调节生物酶的合成和分泌作为生化反应链中首要途径。正如本文已经论述多细胞高等智慧生物的思维局限于三维思维能力,而单细胞生物的智力思维能力应该仅仅停留在识别和运用生物酶而已。而细胞生物对生物酶的识别与合成可以是后天培养的。本文已经在细胞“智慧”一文中论述了细胞的思维。
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 楼主| 发表于 2020-12-21 15:01:04 | 显示全部楼层
Additional academic viewpoints of metabolomics:

DNA should be defined as the main carrier of material genetic information. Because cells are intelligent creatures, in addition to material genetic information, there are also memory of spirit passed on to the offspring cells in the genetic process. This has been discussed in my previous paper. After genetics, complex metabolic processes begins in cells, which can be divided into three categories in this article: primary metabolic molecules (such as tRNA), secondary metabolic biochemistry molecules (such as glutamic acid discussed in plant stress physiology), and the final metabolites (such as polysaccharide compounds). However, enzyme is the indispensable biochemicals in this metabolic process. Enzyme is the principal biochemical regulator to initiate the biochemical process of metabolism in cell biology. The primary and secondary metabolites can be significantly influenced by the cell physiological environment and genetics, whereas the cell functions constantly and only relies on the regulator of enzymes initiating the pathways of various metabolite process regardless of environmental changes and genetics. As has been discussed in previous paper, the thinking ability of multi-cellular individuals of higher intelligent is limited to three-dimension, as the thinking ability of single-cell organisms should only stay in the recognition and synthesis of biological enzymes (no more). The enzyme utilization capacity can be ‘learned’ by cells. The previous paper has discussed the intelligence of cells.
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 楼主| 发表于 2020-12-21 15:05:10 | 显示全部楼层
新陈代谢组学的补充学术观点:
细胞结构生物中DNA分子应当准确定义为物质遗传信息的主要载体。因为细胞是有智力的,遗传过程中除了物质遗传信息,还有精神记忆机制。这在我之前的论文中已经论述。那么在此后,细胞中开始了复杂的新陈代谢过程,这里可以区分为初级代谢生化分子(如tRNA),次级代谢生化分子(如本文在植物逆境生理中论述的glutamic acid),和最终代谢生化分子(如多糖化合物)。其中不可缺少的就是酶。酶是细胞生物中对新陈代谢生化过程进行调节的首要生化指标。初级和次级代谢生化分子既可以受遗传DNA影响、也可以受细胞环境的影响而显著发生变异特性,但是细胞生理功能的调节,仅仅通过调节生物酶的合成和分泌作为生化反应链中首要途径,不管DNA先天遗传和细胞环境变化因素。 正如本文已经论述多细胞高等智慧生物的思维局限于三维思维能力,而单细胞生物的智力思维能力应该仅仅停留在识别生物信号和运用生物酶两个维度而已。而细胞生物对生物酶的识别与合成可以是后天培养的。本文已经在细胞“智慧”一文中论述了细胞的思维。

Additional academic viewpoints of metabolomics:

DNA should be defined as the main carrier of material genetic information. Because cells are intelligent creatures, in addition to material genetic information, there are also memory of spirit passed on to the offspring cells in the genetic process. This has been discussed in my previous paper. After genetics, complex metabolic processes begins in cells, which can be divided into three categories in this article: primary metabolic molecules (such as tRNA), secondary metabolic biochemistry molecules (such as glutamic acid discussed in plant stress physiology), and the final metabolites (such as polysaccharide compounds). However, enzyme is the indispensable biochemicals in this metabolic process. Enzyme is the principal biochemical regulator to initiate the biochemical process of metabolism in cell biology. The primary and secondary metabolites can be significantly influenced by the cell physiological environment and genetics, whereas the cell functions constantly relies on the regulator of enzymes initiating the pathways of various metabolite process regardless of environmental changes and genetics. As has been discussed in previous paper, the thinking ability of multi-cellular individuals of higher intelligent is limited to three-dimension, as the thinking ability of single-cell organisms should only stay in two dimension: the recognition of bio-signals and utilization of biological enzymes. The enzyme utilization capacity can be ‘learned’ by cells. The previous paper has discussed the intelligence of cells.
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 楼主| 发表于 2020-12-21 15:47:32 | 显示全部楼层
新陈代谢组学的补充学术观点:
细胞结构生物中DNA分子应当准确定义为物质遗传信息的主要载体。因为细胞是有智力的,遗传过程中除了物质遗传信息,还有精神记忆机制。这在我之前的论文中已经论述。那么在此后,细胞中开始了复杂的新陈代谢过程,这里可以区分为初级代谢生化分子(如tRNA),次级代谢生化分子(如本文在植物逆境生理中论述的glutamic acid),和最终代谢生化分子(如多糖化合物)。其中不可缺少的就是酶。酶是细胞生物中对新陈代谢生化过程进行调节的首要生化指标。初级和次级代谢生化分子既可以受遗传DNA影响、也可以受细胞环境的影响而显著发生变异特性,但是细胞生理功能的调节,仅仅通过调节生物酶的合成和分泌作为生化反应链中首要途径,不管DNA先天遗传和细胞环境变化因素。比如,在本人之前文章已经论述,针对特定病原体的抗体,不管宿主细胞DNA遗传变异特性,也不管细胞环境的变化,细胞内合成针对特定病原体的有效抗体的同工酶谱都是相对唯一性和特定性。正如本文已经论述多细胞高等智慧生物的思维局限于三维思维能力,而单细胞生物的智力思维能力应该仅仅停留在识别生物信号和运用生物酶两个维度而已。而细胞生物对生物酶的识别与合成可以是后天培养的。本文已经在细胞“智慧”一文中论述了细胞的思维。

Additional academic viewpoints of metabolomics:

DNA should be defined as the main carrier of material genetic information. Because cells are intelligent creatures, in addition to material genetic information, there are also memory of spirit passed on to the offspring cells in the genetic process. This has been discussed in my previous paper. After genetics, complex metabolic processes begins in cells, which can be divided into three categories in this article: primary metabolic molecules (such as tRNA), secondary metabolic biochemistry molecules (such as glutamic acid discussed in plant stress physiology), and the final metabolites (such as polysaccharide compounds). However, enzyme is the indispensable biochemicals in this metabolic process. Enzyme is the principal biochemical regulator to initiate the biochemical process of metabolism in cell biology. The primary and secondary metabolites can be significantly influenced by the cell physiological environment and genetics, whereas the cell functions constantly relies on the regulator of enzymes initiating the pathways of various metabolite process regardless of environmental changes and genetics. For example, in the previous article, it is concluded that the isozyme spectrum correspondingly to the valid antibiotics of specific pathogens must be relatively specific and unique, regardless of DNA genetics and environmental changes between different host cells. As has been discussed in previous paper, the thinking ability of multi-cellular individuals of higher intelligent is limited to three-dimension, as the thinking ability of single-cell organisms should only stay in two dimension: the recognition of bio-signals and utilization of biological enzymes. The enzyme utilization capacity can be ‘learned’ by cells. The previous paper has discussed the intelligence of cells.
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