The Nature of Electron & Charge

Reference: The Physics Book

Within the hydrogen atom, the  mass of the surrounding electron is 1/1836 times the mass of the embedded proton, while the volume of the surrounding electron is about 9999 times the volume of the embedded proton. There appears to be a kind of inverse relationship between the mass and volume of subatomic structures.

We postulate that, at the quantum level, the volume is inversely proportional to mass.

We notice that the mass density of electrons is so small that they do not have centers of mass, and the laws of mechanics do not fully apply to them. This also means that the electrons may not exist as discrete “particles” because they cannot be differentiated from one another due to lack of centers of mass. Electrons are more like a “thick” fluid.

The electrons flow like fluids and their mass density appears as their “viscosity.”

The electrons have both mass and fluidity. This generates the idea of electrons being “particles” and “waves” at the same time. But this is an anomaly only if we assume the electrons to be “discrete particles.” 

Electrons are neither discrete particles nor made up of discrete particles.

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The Position of Electron

Introduced first in 1927 by the German physicist Werner Heisenberg, the uncertainty principle states that the more precisely the position of some particle is determined, the less precisely its momentum can be predicted from initial conditions, and vice versa. There is further explanation available here.

Origins of Uncertainty principle – Possible Flaw

This principle has been applied to the location of an electron within an atom. But since the electrons are not discrete particles, instead they fill the atom like a fluid, they do not have locations. They simply have fluidity with certain viscosity. The quantum numbers assigned to electrons indicate patterns within their fluidity.

Not being discrete particles, the electrons do not have locations within the atom.

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The Boundary and Charge

The interface between the nucleus and the surrounding electronic fluid comes closest to being the matter-void boundary. At this boundary there is a sudden drop in mass density. This sharp gradient in mass is the source of charge. The charge is a surface phenomenon.

Charge may be compared to the “surface tension” as it exists in drop-like free sub-atomic particles, such as, protons and electrons.

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December 28, 2022 – 6:07 AM Categories: Physics Book | Post a comment

Substance and Mass

Reference: The Physics Book

Traditionally, matter is generalized as substance. We use the word SUBSTANCE as a broad category for things that are physically substantial enough to be sensed. This makes force the key characteristic of substance. 

SUBSTANCE is anything that is substantial enough to be sensed.

Matter may be categorized as a special kind of substance that contains mass (inertial force). The laws of mechanics apply to all material particles because they have a center of mass.

MATTER is a substance that has the property of a center of mass.

Today we know that light may not have mass but it has momentum (impact). This qualifies light as a substance. We feel gravity through every cell of our body; so it would be a substance too. 

LIGHT and GRAVITY are substances that do not have a center of mass.

This provides us with a more accurate definition of VOID.

VOID is that which cannot be sensed.

The Structure of Atom

Hydrogen is the lightest material substance. The hydrogen atom consists of a proton and an electron. The tiny proton forms the nucleus at the center of the atom. The old atomic model assumed the electron and proton to be “particles” separated by a void. The negatively charged electron revolves around the positively charged proton as it is attracted towards it. But this configuration cannot be stable because an accelerating charged particle loses energy. The loss of energy will make the revolving electron immediately spiral into the proton.

The Quantum mechanics model of the atom is quite different, but it is described mathematically only. Realistically, 99.99% of the volume of the hydrogen atom is the electron. The tiny proton occupies only 0.01% of the volume at the center of the atom. It is like a tiny marble immersed in a large pond. There is no void separating the electron from the proton. They are very much in contact with each other. 

The proton consists of 1836/1837 of the total mass of the atom. The mass of the surrounding electron is 1/1836 times the mass of the embedded proton. If the proton consists of “solid mass,” we may consider the electron to consist of “liquid mass.” Furthermore, the atom is embedded in a much larger but much less concentrated force field of light and gravity. We may consider that force field to consist of “gaseous mass.”

Here we have used the terms “solid, liquid, and gaseous,” in the context of mass, only to make the point that the concept of mass need not be confined to matter only. It is a concept inherent to all substance.

Consistent with Faraday’s hypothesis of “force field” the concept of mass may be applied to matter, light and gravity equally. The mass becomes much dilated in case of light and gravity. This allows us to explain better the idea of momentum associated with light.

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December 27, 2022 – 1:31 PM Categories: Physics Book | Comments (5)

Matter, Void & the Force Field

Reference: The Physics Book

The classical physics starts with the concepts of matter and void. These two concepts are connected in the sense that void is conceived as the absence of matter. 

Essentially, matter exists and moves within the void. 

Matter is conceived as the substance of the universe. It is concentrated in astronomical bodies. Such material bodies consist of material objects that can be broken down into smaller and smaller material particles. 

The smallest particle of matter is an atom this is considered to be infinitesimally small and spherical in shape. 

The laws of Newtonian mechanics apply to material bodies, objects and particles because they have a center of mass. Without a center of mass there is no material particle.

A material particle down to the atom is defined by a center of mass.

A material object consists of atoms. There is void among these atoms. As this void expands, the form of matter changes from solid to liquid to gaseous. 

All forms of matter—solid, liquid or gaseous—consist of atoms and a void among them.

There seems to exist a sharp boundary between matter and void at macroscopic level. Is that still the case at atomic level?

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The Force Field

We observe that the astronomical bodies influence each other from great distances. Newton (1642 – 1726) determined that this influence depended upon the mass of the material bodies and the distance between them. It was described as the force of gravity, and identified as the property of matter. This force could barely be detected between two material objects. But it was postulated to exist between two material particles down to the atoms. 

It was postulated that matter extends itself as the force of gravity throughout the void.

Roger Boscovich (1711 – 1787) developed a concept of “impenetrability” as a property of hard bodies which explained their behavior in terms of force rather than matter. He found that the continuity of force is a necessary assumption for determinism. He, therefore, saw atoms as centers of force.

Michael Faraday (1791 – 1867) found that the concept of atoms as centers of force resolved the anomaly of electrical conduction in matter. He notes in his paper, Electrical Conduction & Nature of Matter, January 25, 1844:

“If we must assume at all, as indeed in a branch of knowledge like the present we can hardly help it, then the safest course appears to be to assume as little as possible, and in that respect the atoms of Boscovich appear to me to have a great advantage over the more usual notion. His atoms, if I understand aright, are mere centres of forces or powers, not particles of matter, in which the powers themselves reside.”

Faraday, thus, rejected the notion of “particles of matter surrounded by a system of powers.” He identified a “force field” as the basic substance that was concentrated in the atoms, and which filled the void among atoms.

Faraday defines matter to be essentially a “concentrated force field.”

Faraday further resolved the anomaly of light requiring an impossible ethereal medium by the concept of lines of force extending out from atoms. Essentially, matter, as a force field could thin out as lines of force to fill the void among material objects and bodies. This idea he presented in his paper, Thoughts on Ray Vibrations, April 15, 1846. 

Matter conceived as a force field that could thin out may explain the nature of light, and, possibly, the nature of gravity.

Faraday was convinced that the “conservation of force,” as in force field, could more than replace the principle of conservation of matter. He emphasized this with great intensity in his paper, On the Conservation of Force, February 27, 1857.

The force field may be able to substitute both matter and void as the sole substance of the universe.

Thus, we may look at matter, electricity, light, and heat as different concentrations of force field. Within an atom itself, the force field may exist on a gradient with maximum concentration at the center and least concentration at the periphery.

This hypothesis makes the void a very thinned out force field, and puts matter in continuum with that field while existing and moving within it.

The sharp boundary between matter and void, when looked closely, may be found to consist of a gradient of force.

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December 26, 2022 – 5:39 PM Categories: Physics Book | Comments (1)

Physics I: Chapter 16

Reference: Beginning Physics I

CHAPTER 16: THERMODYNAMICS II: GAS LAWS, THE ATOMIC VIEW, AND STATISTICAL MECHANICS

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KEY WORD LIST

Molecular Mass, Mole, Avogadro’s Number, Boltzmann Constant, Universal Gas Constant, Ideal Gas Law, Average Kinetic Energy, Mean Square Velocity, Internal Energy, Heat Capacity, Molar Heat Capacity, Equipartition of Energy, Statistical Mechanics, Law of Dulong and Petit

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GLOSSARY

For details on the following concepts, please consult CHAPTER 16.

MOLECULAR MASS
A mass of any substance whose numerical value in grams is the same as its atomic or molecular mass is called a gram atomic or molecular mass of that substance.

MOLE
One gram atomic or molecular mass of any substance is called a mole of that substance.

AVOGADRO’S NUMBER (NA)
The number of atoms or molecules in a mole of any substance is this a universal constant called Avogadro’s Number.

BOLTZMANN CONSTANT (k)
This is a universal constant:           

k = 1.38 x 10-23 J/(particle. K)

UNIVERSAL GAS CONSTANT (R)

R = NAk = 8.31 J / (mol . K)

IDEAL GAS LAW
For any confined diluted gas:        

PV = nRT

The result from the laws of statistical mechanics is

AVERAGE KINETIC ENERGY
The average translational kinetic energy per molecule in a sample of ideal gas is

This gives a fundamental meaning to the concept of temperature.

MEAN SQUARE VELOCITY
The mean square velocity (v2)av is the average value of the square of the magnitude of velocity of the gas molecules.

At a given temperature the lighter molecules have greater velocities since the average kinetic energy is the same for all gases at a given temperature.

INTERNAL ENERGY (U)
In our infinitesimal “billiard ball” model of a monoatomic gas, the only energy is translational kinetic energy. Therefore, the internal energy is:

If we add some heat to our system, we must have,

HEAT CAPACITY (C)
Heat capacity is the total amount of heat needed to produce a degree rise in temperature. For a constant volume process,

MOLAR HEAT CAPACITY (cv)
The heat capacity per mole for an ideal gas at constant volume:

The heat capacity per mole for an ideal gas at constant pressure:

EQUIPARTITION OF ENERGY
These results, in which each degree of freedom that involves energy (with certain restrictions) contribute the same value (1/2 kT) to the average energy, are called the law of equipartition of energy.

STATISTICAL MECHANICS
Thermodynamics and statistical mechanics thus allowed for the indirect study of the physics of the realm of atoms and molecules, which lead to the realization that Newtonian mechanics does not apply in this realm. This in turn led to the formulation of the new “quantum” mechanics in the early twentieth century.

LAW OF DULONG AND PETIT
A study of the actual values of the molar heat capacities of crystalline solids at constant volume shows that at high temperatures they all have essentially the same molar heat capacity 3R (six degrees of freedom). But all real crystal solids have molar heat capacities that decrease to zero as the Kelvin temperature decreases to zero. This is because the assumption of Newtonian mechanics do not hold.

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December 25, 2022 – 5:38 AM Categories: Physics | Post a comment

The Unknowable of the Eighth Dynamic

Please see Course on Subject Clearing

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The Scientific Method

We don’t know everything. We find that there are gaps in what we know. To fill those gaps we make a postulate and develop a theory based on it. The theory then predicts phenomenon, which, if verified, validates the theory and the postulate. If it cannot be verified, then one goes back to the drawing board. This is the scientific method. Using this method we build up a network of postulates and considerations consistent with what we observe. 

But how far can we go with this system. Can we know everything?

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Dimensions and Duality

If we know everything, there would be no doubts, perplexities and confusions. There would be total certainty. There would not be any unanswered questions. One would be able to resolve any suffering; and a perfect life would be achievable.

But the universe is not unipolar. It has dimensions; and each dimension is made up of gradients that lead to two opposites. If there is perfection, there must also be imperfection. If there are things known, then there must be things unknown. If there are aspects of this universe that are knowable, then there must also be aspects that are unknowable.  

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Knowable and Unknowable

It is this Unknowable that Hinduism have labeled Brahman, and Judaism has labeled YHVH. It is the Unknowable that generates the knowable. The unknowable forms the background of all that is knowable. 

If you look carefully, you will find that everything you know is based on your considerations. Yes, there are sensations that you pick up; but, then, your considerations interpret them for you. So, you only know your considerations. Beyond those considerations lies the unknowable. Hinduism defines Brahman as THAT which is not the outcome of any consideration. Judaism forbids the original pronunciation of YHVH.

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Auditing the Unknowable

When we are resolving anomalies, we are auditing the Unknowable. The unknowable trickles into our consciousness in the form of intuition and becomes knowable. This process is endless.

Here is what Herbert Spencer wrote on the subject of Unknowable.

Durant 1926: The Unknowable (Herbert Spencer)

Here are the earlier essays from the blog on this subject.

  1. Knowable and Unknowable September 5, 2010
  2. The Paradox of Unknowable May 8, 2011
  3. The Algebra of Unknowable May 18, 2011
  4. Definition of Unknowable June 25, 2011
  5. Research into Unknowable November 3, 2011
  6. What is Unknowable? November 10, 2011
  7. The Factors of Unknowable November 13, 2011
  8. Infinity and Unknowable December 17, 2011
  9. More on Unknowable February 11, 2012
  10. The Unknowables November 5, 2013
  11. Universe and AwarenessSeptember 30, 2014
  12. Unknowable and Postulates November 24, 2022

The above may be looked upon as the auditing of the Eighth Dynamic, which was outlined by Hubbard but not explained. To audit, subject clear the above data.

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December 24, 2022 – 6:52 PM Categories: Subject Clearing | Post a comment