Introduction to Science/Combustion
Combustion is only one process of a much larger cycle, which works together with its inverse process, Inflammation or Flammation for short, which is basically just your plain old fire. However in a combustion engine, a blue flame is the primary flame used for power, and is something commonly seen in labs as a red flame tends to convect aerosols of oxides into the air. It often likes to stick to stuff, meaning it has a high ionic bonding energy, which ties into our theory of vapor liquid equilibrium being conducted by Nuclear Energy, which is the primal essence of what a fire is, at its most fundamental and basic form. Other types of Nuclear Energy tend to include more complex fuels, typically made of extremely heavy atomic structures which can produce energy in similar ways to typical combustion-flammation cycles. This essentially means that the only difference between a Nuclear Factory and a backyard fire pit, is the type of fuel used, meaning Nuclear Energy and Internal Combustion Technology, go hand in hand. This book describes the nuts and bolts of this Science.
Cycles describe functions, and their inverses, combined to form a closed cycle. This closed cycle describes systems of flames and fires of all sorts, and our methods to control them have created a new science known as combustion which, for the most part, is related specifically to the field of internal combustion. External combustion is another field, used often by the public as a typical household flame, stove, barbecue. We find the same technology in much of our aircraft, as turbines and Military Grade aircraft, which combine the use of compression, one aspect of Cycle 1, into expansion, the inverse function, to create a potential of difference, which is used to create lift in an aircraft. There exists a midpoint, and this is described in Combustion as a Planar, or perhaps as a membrane of sorts. Outside of this, there then begins the inverse function back to the start, which is actually the mass of the atom itself, which is the root of the whole system. Like a vector, it can continue for an eternity, although often we find it only does so for a certain period of time. Mass is simply a description of time, acceleration, all of which are important aspects of the combustive cycles.
The first junction is described by the compression stroke, then begins the inverse of that which is the Induction stroke, if done correctly or when timed with gravity, produce the effect of a shockwave and its front being aligned with the piston or weight of the piston moving exactly at the speed at which energy is conserved, which allows the shockwave to be conducted through the material, and into the proper transmission, which is like a propeller, when mated with its inverse propeller, creates a cyclone of sorts, which is able to pass a shockwave through a sound hole and into the piston there which is able to power the differential, which then send power to the wheels. After that is complete, thus begins the convection stroke, and so thus begins the enthalpy where energy from the first function is now creating an output of mechanical energy, which began its life as a simple sound wave reaching the sound membrane, exceeding it into the thrust membrane. Sound based mechanisms describe a type of force membrane, one of mass, and one of volume, which when inverse describe the type of function we know as extremely high grade fuel, as the induction and flammation form an aerosol layer in which combustion may take place, and the process may repeat itself, and this is the Ottoman Engine, where a large amount of kinetic and potential energy remains, especially in the front, as it becomes compressed, which is then alit by a spark, and into a flammation which can then be used as a source of energy a function of the same as combustion. This engine is the Rotary engine, and requires the use of much more concentrated materials in order to function correctly, where gasoline is seen as a weak alternative. Shockwave-based fuels are thus conducted through the material, meant to remain stable at high speeds, similarly to electrical energy. Once this speed is reached, the vehicle will remain stable and all excess energy may be used to create electricity. For now, they move through a piston rod, into a type of rotary mechanism.
Medium - Air
Fuel - HydroCarbons and Alcohols
Cycle 1 describes your typical engine and all its capabilities, depending on the type of fuel of course and the scale at which it may work. A typical combustion would only be able to perform fusion if everything was right, but for the most part, it remains as something rare and unstable, such as the formation of an alkyne, carbon monoxide, being squeezed together to form, nitrogen. All that is needed is the proper number of electrons in order to achieve such a feat. Along with this, the ability to separate CO2 and H2O back into a hydrocarbons and oxygen or into oxygen and hydrogen, depending upon the abilities of the machine. Thus so far I have collected what I will call Cycle 1. A flame and fire combined should be able to perform some of these feats, depending on the type of fuel used. For now I will stick to Hydrocarbons as they are abundant in 2017.
- Clean Air - Pre-Induction of Material Same Equilibrium 2
- Total Depressurization
- Fusion (Equilibrium 3)
- Planar - Boson or Equilibrium 1
- Fission (Equilibrium 3)
- Total Pressurization
- Clean Air - Post-Induction of Material - Equilibrium 2
I will go over all of these, with combustion as an area of interest.
Chart Above(1.1): 0-1 Scale with Numbers representing the Approximate Points within that function of specific types of Engine Mechanisms
Medium - Electricity
Fuel - Heat(Entropy and Enthalpy)
Medium - Water
Fuel - Liquids and Vapor
- GasVapor Cycle
- GasLiquid Cycle
Cycle one comprises of a series of energetic movements which complete a full cycle of a flame, fire, or anything within that nature. Still to this day it remains a mystery, although I am here to help uncover this mystery. This is so the Human Race can use the technology for the betterment of society and to push it forward technologically into a future or more futuristic or modern perhaps era. Where futurism of 2017 is the modern era for all of mankind, starting today.
Q: A Quantum Object or Boson
Intake: Clean air enters
Compression: Increasing Mass as compared to Volume to a slope. Purpose : To Prevent Detonation Pre-Ignition
Pressurization: Removal of Heat to prevent Decompression.
Ignition: The Critical Point reached.
Fusion: Maintaining The Exact Vector of a Critical Angle(Triple Point)
Knock: Increasing Entropy to a Certain Vector so as to maintain that exact Vector to maintain a Frequency of Combustion.
Combustion: Release of Hydrogen with very low frequency of movement and Cloud Formation and sequence of Ignition. Wave Behavior
Planar: Bosonic Lattice Formation separating Combustion and Flammation
Flammation: Release of Oxygen with extremely high frequency of movement and Spiral Formation and Sequence of Detonation. Particle Behavior.
Detonation: Increasing Enthalpy to an exact Degree so as to Maintain the Flammability Limit for a Pitch of Flammation.
Fission: Maintaining The Exact Critical Angle of a Vector.
Eruption: Critical Angle Reached.
Explosion - Removing the Total Mass of a System, such as diamond, from the exhaust.
Propulsion: Increasing Volume as compared to Mass to a Parabolic Function. Purpose: to prevent Implosion or Reversal of Cycle.
Exhaust: When clean air exits a system.
Combustion and Fire: The DifferenceEdit
Combustion is a sub-planar operation in which a blue flame is observed.
Fire of Flammation is the post-planar position in which a red flame is observed.
Blue Flame: Combustion
Fuel Type: Hydrogen : H2
Quantum Behavior: Wave-like
Direction of movement: Downward
Formations: Soft and Bubbled
Shockwave Type: Parabolic [MultiVariable, Parabola shaped Shockwave]
Red Flame: Fire
Quantum Behavior: Particle-Like
Fuel Type: Oxygen : O2
Direction of Movement: Upward
Formations: Sharp and Spiked
Shockwave Type: Vedic [Absolute or Single Variable, V Shaped Shockwave]
[Inflammation: related more closely to Oxygen for Red] and [Combustion: Hydrogen for Blue].
Hydrocarbons serve as a source of Hydrogen via Combustion [Hence the Blue Color of Hydrogen], while Alcohols serve as a source of Oxygen [Hence the red Color]. Alcohols and Hydrocarbons can of course be mixed to make a fine fuel. The exact proportion of the mixture should allow for the net release of energy to be Zero, as The Oxygen and Hydrogen continuously feed each other's Flames. This can by perfecting the design of the Combustive and Inflamative Chambers so that a fire is allowed to exist in an enclosed region, such as an atmosphere. Combustion was able to achieve this result in the 20th Century. This means that the products of a flame would have to return under combustion meaning that atoms created during inflammation can be returned to once again perform combustion. After Combustion, it will likely be able to return to inflammation either instantaneously, which would perform Fusion, or after finding itself in some kind of gas-equilibrium with a liquid. I will only assume that from a fire, the vapors form gas equilibrium to form a cloud or dust-like mixture which we refer to as an Aerosol, thus molecules enter and exit the structure of Vapors similar to a Liquid. The best example of such a Vapor existing is as a Hurricane or Tornado, where molecules are free to enter and exit the large superstructure creating over low lying plains. The cause of such Vapors would be from a Conductive force and perhaps an Inductive force below the surface of the Earth, or above the Atmosphere of the Earth.
Combustion and Induction can occur in any point away from the point of Inflammation, as is observed in NASA's Flame Ball experiments, where a blue flame encompasses a red fire. Flames from now on will simply refer to the Combustive portion of Atomic Degradation Phenomena and Fire as the red or Inflammation itself. Thus from space, we can observe some type of inductive or combustive force taking place either above the atmosphere, likely as extremely hot air. Slow movements begin to occur, and this is the combustion of Hydrogen. This can only occur in a depressurized region, which acts as an enclosed and massive combustion chamber where the process of sound wave formation, and shock wave formation, can lead to the formation of inflammatory like behavior, thus is observed from the formation of vapors and aerosols, such as clouds. The inflammatory portion of such behavior would be the inverse of our aerosol, like in the form of extreme convection of heat towards a large volume. This zone would be highly pressurized, signs of Enthalpy, meaning energy is being transferred from an Inductive Depressurized Shockwave forming region of some type of Mass or Singularity as its center, to an area of extreme volume, highly pressurized system sustained by an extreme and rapid movement and frequency, which is the convective force itself. Conductivity between the two forces, thus describes a SuperSystem, which acts as a medium between these two regions, which when connected, created the Tornados, Volcanos, and other Phenomena in which a large amount of energy is able to travel through a Boson (A hole defined by the parameters which created it).
Compressors, such as the Internal Combustion Engine, would prefer Combustion to Fire, while Turbines would prefer a Flame, such as an afterburner, to Combustion, although both can occur of course. Turbines have both aspects, a compression and combustion chamber, as well as an AfterBurner, which is meant to reproduce SpiralLike Flammation Effects for Wrinkled movement through the Sky, which would prevent Turbulence if designed well enough. Perfect and it would escape and fly into space without effort of any sort. Alcohols burn and Hydrocarbons combust. Leave that engrained in your mind forever. It will help in the future when performing maintenance.
Engines designed for Flammation would have to be devised and designed as we live in a world where combustion dominates. [The two engine types together would create an even better engine of course, similar to a Differential]
When Alcohol and Hydrocarbon Fuels can be integrated into a single engine, we will be able to remove the Harmonic Balancer and we will be able to turn on and off an Engine on the Fly.
The Function of Combustion is based upon its inverse function, Inflammation, where the two together form a single function in which the difference in potential or E is measured by the rate of Combustion versus the total amount of Inflammation over time. In an equation, Inflammation would be sin, and Combustion would be cos. The equilibrium amount of both is the only true desire, as that is the rate of 100% all-time efficiency, in which excess amounts are produced in downtime. This is due to the nature of equilibrium, which when reached is capable of producing massive amounts of energy. This is still just a theory however, which will be proven of course, as logic already has.
The limiting factor would the variable of lesser degree of course, sin or cos, in which a perfect vector is not formed. For example, we have Oxidation States in Chemistry, which represents the partially charged Ionic state of the polyatomic compound, where a number is shown to represent the difference in value between a perfectly formed solid and a partially reduced and oxidized aqueous compound or atom, existing Only when such a perfect vector is formed, do things travel for infinity, otherwise, they are producing some kind of ionic or disassociated state in which separation of a charge produces a difference in potential of +1 or +2, of course be the lesser degree, where the radian would be measured as the peak output based on such a degree. When the two equal to zero, in terms of their difference, then peak efficiency is created and Combustion and Inflammation can thus work together to create an Equilibrium between the two types of flames typically present in most modern Consumer Methods of Travel and Performance. Thus we begin our estate in Combustion, Fire, and all its aspects.
Fire is a Highly Pressurized Volumetric Force Convected by Perpendicular Stresses in a Lattice. The Interaction of two types of Stress: Shear[Parallel] Stress and Perpendicular Stress create both the Flame and Fire, which is denoted as Combustion and Inflammation Respectively to each other's specific behaviors and colors. One travels towards more Volume via an Increase in Pressure (Convection), while the other travels away from a mass via a Major Decrease in Pressure (Induction). Combustion consists almost entirely Parallel Stresses upon a lattice, with Observation of a Combustive Flame[Blue] appearing cloudlike in structure, and wave-like in movement on a vertical axis(from up to down/down to up) on Earth, and particle like on a horizontal axis(from left to right/right to left)[can be observed when attempting to light propane]. Fire as can be seen by any bonfire, consists primarily of Perpendicular stress, which appears particle like on a vertical axis on Earth, and wave-like on a horizontal axis(wrinkles). Ball Fire/Flame is simply an equilibrium of these forces, meaning combustion is entropic in nature, and inflammation is Enthalpic.
Combustion - Related to Induction of Air into a depressurized Chamber, where Entropy is at its maximum, and enthalpy at its minimum - Cold Chamber - Requires Induction
Flammation - Related to Convection of Air, into a highly pressurized Chamber, where Enthalpy is at its maximum, and entropy at its minimum - Hot Chamber - Requires Convection
Induction of the Combustion Chamber allows more air, and with the proper depressurization, the exact stoichiometric conditions required for proper combustion. However we have now recognized the importance of Inflammation, and thus have two chambers, the Combustion and Inflammation Chambers, the basic Jet Engine Design.
Convection is required in order to gather the heat of the Combustion process as Enthalpy and to use the Enthalpy for Mechanical and perhaps Electrical Energy. Mechanical purposes are used currently by the Jet Engine and Convection is most commonly recognized by an AfterBurner, which attempts to create the maximum amount of Enthalpy after the Maximum amount of Entropy. By Creating a Larger difference in Potential between the Maximum Point of Entropy and the Maximum Point of Enthalpy, we thus prove via this calculation that more energy can be made, when such an equation is set to zero as the absolute requirement for 100% Efficiency of any engine. Thus if an Engine's maximum point of enthalpy far exceeds the amount of entropy, then the engine is bound to be poor in performance compared to the theoretical threshold, which is gamma.
Thus we must also consider the aspects in which Conduction and Induction take place within a flame and fire. Induction of gases towards a planar via combustion would likely take place, as the heat begins to evaporate the gases within an extremely crude fuel-oil mixture. The evaporation of the gases leads to combustion, in which a proper fuel-mixture will then begin to add, from a more combustive fuel, a more inflammatory fuel, in which the convection of heat begins to take place. Along with this convection of heat, is the convection of particles of all sorts, from the fuel-air mixture, which includes Carbon Dioxide, Carbon Monoxide, Water, and perhaps maybe even some free hydrogen or Inflamed fuels of sorts. The convection of these molecules or gases into vapor often takes place, and can be seen as the smoke. If done correctly, this smoke can again be re-used under equilibrium to go back into the flame via changes in equilibrium between the liquids and vapors. Thus it is possible to create an unlimited fuel, as long as all reactants can become products and all products can become reactants, in a system. To create growth in a system however would require constant input.
In order to describe the Conduction and Induction in terms of Combustion and Inflammation we must discuss their Flames. We first attempt to understand the function of each, but in terms of Particle-Wave duality, which we have only partially done so far.
Particle Wave BehaviorEdit
This chapter describes the Particle Wave behavior of Units of Atomic Structure, which will shed light on the nature of Combustible Fuel Mixtures and the nature of their Flammability, Eruptability, Heat Conductivity, Magnitude of Forces, and other basic Radioactive Forces which exist inherent to a single atom. A single Atom will serve as the guidepost for both Combustion and Flammation, while the molecular nature is thus discovered as a result of the combination of certain stoichiometric ratios of these chemicals, with their fusion and fission like natures finally being discovered as a result of research into Entropy, Enthalpy, and the Membrane or String which divides these two types of Rates of Movement and Exposition. For now, we shall Recognize Entropy, Enthalpy, and the Atomic Membrane which separates the two dimensions, and the world inside and outside of this atom. Either Oxygen or Hydrogen en masse.
Enthalpy - A Measurement of Ionic movement (or Atomic on a molecular scale) of an Atom's External Rate of Influence: Changes in Volume, Pressure, and Temperature outside the atom or on the molecular scale. This is really just what exists outside of an atom, if the atom were the only thing in existence. Radiation or Heat from inside the atom escaping to the outside for example, or an atom degrading and releasing radiation or atomic nuclei(this would be a different topic).
Entropy - A Measurement of Ionic movement of an Atom (Or Atomic movement within a Benzene, or other closed molecule of different sorts) measured by changes in internal pressure, internal volume, and internal temperature, of an atom. Essentially this is just the inside of atoms, which is inaccessible to us for the most part.
Membrane - The Membrane is a waveform created by the existence of extremely high energy particles or ions, the same ions which determine Entropy and Enthalpy, and determine whether other ions are allowed to enter the Atomic Sub-Frame. The Atomic Sub-Frame is defined by the total amount of volume encompassed by an Atom, and thus its electron reach or ability to interact with other atoms. All radiation of an atom, is going to exist somewhere within this volume, and will be unable to escape unless an outside force or excess entropy forces the atom to open up. This is the ionic form of the Atom, and is the same form as its vaporized form.
Particle Wave Behavior - described in every aspect defining the Nature of a Boson. The Left and Right, or in this case, Combustion and Fire. Particles are Inducted through a material, and convected out the other end. They are as well, if we continued this process, able to be inducted then as a an aggregate, called a wave, and can also be convected as an aggregate, such as with heat waves or shockwaves, or can even be inducted as a very narrow stream of particles, one by one, just like a cell's membrane does with K+ and Na+.
Ionic Propagation of Particles and Waves of Combustion and Flammation
Fire is capable of Convection and while Combustion is capable of Induction. The Induction of fuels from a liquid to a gas is one of the few interesting aspects of Combustion. While a fire seeks to break apart an object for fuel, such as with the consumption of cellulose, a flame of combustion seeks to induct the fuel. Thus we are to understand fire or flammation as the convection of a material for some fuel source. This is the foreground of understanding that Convection is used not only as a way to create an output of ions, but an input as well. It is to be understood that Induction allows the intake of a liquid to a gas, via the changes in pressure and temperature of gas-equilibrium, and so fuels taken from such an equilibrium can also be returned or added from the convection of a flame. We understand the path of such a particle, if originally a vapor, is pulled down via convective forces, to the fire, where it finds itself trapped. Soon it is inducted downwards toward the gas/liquid mixture below the fire, and into the flame. This correctly describes the path of a particle from above a fire, into a fire, in a plenum, then down into the combustion chamber, from outside. Induction is thus able to pull particles not only from an intake, but from the exhaust itself. In order to perfect combustion and flammation it is however required that equilibriums of gases to both liquids, vapors, and then to plasma be understood. Plasma would be nothing more than the Quadruple Point, which describes a state which is neither gas nor liquid, nor solid nor vapor. Vapor is a new element described as an Aerosol.
Combinations of induction and convection in the same direction result typically in a flame ball of different sorts, and are considered dangerous for the most part. As long as the amount of Induction and Convection are balanced, similar to critical and triple points, it is possible to create a flying ball of fire, similar to the Space Station Experiments with NASA. Otherwise, flame balls are typically observed as weapons, though they could be used for Internal Combustion Technologies which would make more use of the shockwaves created by such items. New material technologies, especially those of carbon fiber, could push this world forward. Understanding the nature of Induction and Convection is as simple as understanding the Ionic Movements of Particles, where waves are described as the aggregate collection of such particles en masse. Thus we can understand how to manipulate waves, such as shockwaves, and how we can use them to create defensive shields and structures. Particles are used to direct the nature of such projections, where waves can be easily controlled by different types of ions(speeds). Thus we can describe the nature of destroying a shockwave. A shockwave is destroyed by taking apart the wave, which is split into two aspects. A compressed and Induted Aspect, which form the rear, and the Convected and expanded aspect, which is the front. An ion, such as an electron or photon, which both travel faster than a sound, shock, or heat wave, travel through the shockwave. Once an ionic hole is created in the shockwave, it can be controlled or directed by even more ions, and thus it is possible to use such immensely powered technologies to generate even more electricity than simple oil and gasoline. This is observed as an Induction wave in which a flame and shockwave follow one another throughout an environment. It's separated by two aspects: a shockwave and heatwave, the front and back so to speak, where the front is seen as a barely visible wave in which structural units of ions travel quickly enough to essentially create an ionic front of particles which act physically to us, meaning they can push us over, versus that of sound, which can only break your ear drums or make your body rumble. Since sound travels through matter, and since shockwaves travel faster than the speed of sound, we inherently understand that shockwaves thus don't travel through matter but instead act as physical objects in this world, though remain as ions rather than atoms. They have the same capability of matter, meaning they can also replicate sensations, and this is why it is so easy to be hit and knocked over by a shockwave. Our nerves likely see shockwaves at the same scale as physical touch and sensation. Shockwaves thus are the primary aspect which must neutralized if they suddenly appear, then secondly the flame or heatwave being inducted by the shockwave created. Removing the shockwave, would allow the heatwave to travel forward, but at a much slower speed, and this is neutralized in the same way, by creating holes in the waveform, enough of them, via ions of a higher speed. In this case, a heat wave can be annihilated using shockwaves. The induction of a fire, would thus represent a mixture of heat ions, which travel slower. To describe the nature of such combinations of waves: These heat ions, thus in order to follow a shockwave, would require a vacuum between the two, and thus the induction wave begins as a result of the compression of the material so that a type of hydraulic tubing forms, which allows the flame to be carried across a a volume like any other hydraulic mechanism. Convection would simply seek to spray the fluid outwards and away from the tubing source, thus a shockwave, if broken early, would allow the inducted flame to escape through the broken structure, thus stopping the shockwave from propelling further, unless the heat ion magically filled the hole, and travelled at the speed of sound as a ball of flame. The flame is literally inducted by the force of compression or vacuum and thus if a flame wave were then compressed, then the formation of water could also likely occur, or some interesting mechanism of which some Technology can be formed. For now they are used to create volume as the sun does, and light, the perfect equilibrium of such waves and particles, forming harmony or the ability for life to propagate. This is the purpose of this book. Now onto the extremely technical world of Particles, Waves, and their path of travel in this universe.
Induction and Convection
Induction - To be pulled into a space or volume, no matter how small[often leads to compression if the force is continued]. (Ex. a Combustion chamber under vacuum being exposed to air while under compression from some outside force, such as a vacuum pump) The result is air being inducted into the combustion chamber very quickly, via some kind of a pumping mechanism for example, such as a vacuum, created perhaps by a Fire. In this method Convection paves the way for Inductive goods.
Convection - Convection is the outburst of Ions from a Planar. Sound, Heat, and even something as simple as a wooden stick, is convected by the release of energy from a membrane, such as a string, outwards, such is the case with work in Enthalpy. Thus before we reach Convection, we find Conduction, which is the interaction between induction and convection.
Conduction - Conduction is when energy is carried between two points of two different types of Matter via a Rate of Frequency defined as a constant rate of change. Matter is defined as anything that exists as both a Particle and a Wave, at the same time, meaning it is made of Fields, yet also carries some load, or a Current. Thus it exists as an expression between the Waves and Particles, similar to a Fire(in terms of the two types of Stress discussed above) or a combustive flame, its existence is primordial upon the fact that all matter is a formation of particles and waves, thus is defined Particle-Wave Duality. Conduction tends towards Frequency, and so Wavelength is of course predominated by another force, E.
SuperConvection - E is when energy is carried from one point to another via Changes in Wavelength, described as parabolic in structure. Changes in Wavelength accurately describes the phase state change of Convective to Inductive Energy States, such as a large shockwave or soundwave. Thus the length between the front of a shockwave and the front of its inductive counterpart, would reveal a total amount of Energy defined by the change in energy of the shockwave, from its peak, past equilibrium to the inductive force (since a shock or sound wave is defined as the convected force). The Inductive Force would be defined as Compression. Compression of sound waves often reveals silence, so the compression of a shockwave, should simply reveal a sound. The Total Change in Enthalpy, would describe the amount of energy needed to convert a shockwave back down into a sound wave, thus giving us more us of high potential energy for the Civilian world as a method of Transportation from one region of the world to another, at Mach 7.
SuperInduction - Super Induction describes the state in which inductive energy may cross a medium from one point to another, which means it is also the same thing as SuperConvection, when viewed from the appropriate perspective. Thus all SuperStates are like this.
Compression Wave - A Compression Wave is an Inductive ShockWave, meaning it can travel faster than the speed of sound, as a type of shockwave, as a Parabolic Function which opens upwards. A Compression Wave has the ability to create aggregate material, similar to how debris can be collected by certain shaped waves. After passing the vertex, the line begins to decrease, from left to right, meaning energy begins to return to normal, with less entropy. After passing through zero, it can become a Convection Wave, similar to a Heat Wave or a ShockWave, which then begins to spread the aggregate material collected by the Compression wave, apart and into a new series, since a Convection Wave also has the ability to aggregate material at its respective front. Thus material has the ability to aggregate and collect in two separate ways, via Compression Waves and via Convection Waves. Thus Compression and Convection Waves can be used together to gather Material and transfer it to a different location, while taking apart the material and putting it back together.
Shockwave - Travels faster than the speed of sound, while a sound wave travels less than the speed of sound.
Soundwave - Travels slower than the speed of sound
Induction Wave - An Induction Wave is a wave created by a type of material, whether a vacuum or from the heat of a flame, that is carried by another force, into an area of a vacuum. An example with water would be the induction created during surf, where two waves of opposite value are inducted and convected as a function of the same, meaning the front wave forms a positive peak above the line and the rear wave forms a negative peak, below the line, with the total difference in potential being the actual height of the wave across a midpoint, which is the actual water level. In Turbulence an Induction Wave is responsible for the plane falling shortly for a period of time, after a short period of throttle or positive wave thrust. A wave created by some force speeds past the plane, and the plane is pushed forward slightly, then the plane is inducted downwards by the second half of the wave or by the induction wave, towards the area of a vacuum, along with the Material or Medium or Membrane, which in this case would the gases and vapors known as air and/or clouds. Interestingly induction waves can be used for time travel. For a vacuum to be carried into another vacuum would describe the changes in the dimensions of that vacuum, a type of wormhole so to speak, where space is bent, rather than mass, by the massive influx of volumetric particles. Changing the PSI of a Vacuum could actually bend time enough for us to see that it is possible to refract space itself. Thus Induction waves are important for bending space enough for us to travel through it in the more conventional method of time travel. Space is changed to allow for an object to travel further through it than normal. Rather than increasing mass, we simply increase the volume, until the Volume of an area is adjusted. A hole in space, similar to the hole created be electrons traveling through spacetime, would thus constitute teleportation of goods, among other things, to allow for two points to exist in the same space. This is related to Induction, from one vacuum, into another.
Conduction denotes a constant frequency, of almost no wavelength, while E denotes a very very large wavelength, with maybe 1 point of frequency. The total change in energy of a system, can be described as the total number of changes, multiplied by the size of that change, from the minimum to the maximum.
Theoretically to approach a state of the combined function of both E and Conduction would mean the combined single frequency and a single wavelength as one unit.
Induction thus describes the approach of a Particle towards a point. This is the angle, measured in Degrees.
Convection describes the Particle as it moves away from a point and towards a point on a membrane, measured by the Radian or the point on a Circumference towards an Angle.
The Entropy-Enthalpy barrier is then approached and either is pierced or the particle returns back to its state of Entropy, described by the return path of a particle to a mass, this is described by the Strong force.
If it does pierce through a membrane, this particle now finds itself with some rate of spin, moving in some direction, the rate of spin determined by the original mass, and the destination determined by the initial force and outside forces interacting with each other.
The path of such a particle in space is deemed by the initial angles given to us above as the Angle and Radian. When combined, they shall tell us the inverse Angle and Radian and thus the location of the destination of the particle in question.
Ion - A quark or particle unit with a charge or rate of movement or momentum (an amount of Kinetic/Potential energy). Ions are all measured in terms of their speed in order to denote their specific behavior.
Control Particle - A Control Particle sets and arranges the parameters in which something could exist, as the inverse of a data particle, and this comprises the absolute essence of Quantum Experimentation where Quantum Data can spontaneously appear in any part of the universe, depending on the programming used. It essentially lets us access the internal code of the universe, and of any species, using a computer, which uses the same basic functions to access the data, where translations are likely the only possible error which could appear. Something common in our world. The control particle would dictate the grammar, so to speak, of the universe, and thus the capabilities of atoms, the ions they can have, and what they can do, so much so that their existence would not somehow make it obvious that the Universe we live in could be completely constructed, in all facets and ways. It ties everything together so that a language would allow us to easily take apart the Universe in all its facets, and put it back together. It is essentially the space in which code can exist, with code being defined as the Data particles, or the Bits, a type of ion which if it has enough energy, can exist as something physical in this world. Data requires a lot of energy, and thus finds itself on this totem pole alongside Control Particles, which act as the servers or hard drives for the existence of such energy based structures to take form. This foreign concept will be useful for programming a flame.
Mass Particle - This is a Gluon. A Mass particle is essentially just a hole, but since volume is technically already considered empty space, we thus have a hole within empty space and this is what gluons are. Since they don't weigh enough to actually have a real mass, we simply conclude that they are some type of subatomic particle, thus the gluon, since their nature seems to inherently be the opposite of that of an Electronic Particle or an Electron, a type of Lepton. These are all just ions, and since Bass and Treble can inherently describe two completely different ideas, and still be the same thing, we confirm the same result with the Gluon and Electron, or the Fractional Mass and Fractional Volume particles. It is likely that these ions are a result of the interaction of the Non-Functional Units known as Mass and Volume, or are the collection of those units en masse. That would tell us that a vacuum is made of particles however, which if true means that yes there can be a vacuum wave.
Cold Particle - A cold particle is likely responsible for the sensation of a chilling.
Sound Particle - Like a sound wave, sound particles are like those created by a whip, they are particles which move fast enough to generate some type of noise. These are likely the ions which generate the first movements of Entropy and Enthalpy, as sound and pressure are inversely related based on the ability of sound to change the dynamic and static pressures of a sealed environment. This ability to generate noise, sounds, all on a specific frequency of the auditory level denotes a very specific type of ion which allows the movement of atoms and hence their ability to conglomerate into modes of both even and odd orders. Thus the structure of atoms is highly dependent on the frequency of noise present or the type of entropy pattern dictating the molecule.
Shock Particle - Shock particles are responsible for the human resonance of electricity, which determines our level of mass and volume. This is the particle that can feel like it is being hit, or shoved greatly to a much higher degree than being pushed.
Structural Particle - Structural Particles carry ions, and are made up of ions of different types. These are better known as Quarks, but I will label them as Structural Ions, for their use and purpose, which is to serve as the foundation of an Atomic Structure. When ordered, they are labelled as Fermions: a set of 3 Quarks each, of which opposite spin and zero spin together create a basic atomic function. The mass of such a unit is 1. Ions are thus these particles which can act as both mass, and as volume, based on the amount of potential or kinetic energy present. This energy is the function of all atomic nuclei, as the set order of an atom, and thus its conductivity, entropy, and shape and structure, create certain ratios which when compared to a set particle number, create a specific set of behaviors. This is the programming of atomic nuclei, and hence why DNA structures share the similar result of Singularity based Data Servers or Branches for genes or lines of code in which a set of two possible orders (RAM) can exist, although a single type of RAM each constructs the entrance and exit behaviors of a specific frequency. DNA is changed by Radiation due to the ability for atoms to act as ions, where their ionic structure thus begins to take foot, at which point, upon being translated, results in an error in the line of code. If done correctly, can create an entirely new gene sequence; incorrectly and lots of bugs will start appearing out of nowhere. Atomic Particles, thus are deemed to be radioactive based on the amount of spin or entrance/exit abilities of the atom into another species or sub-species of a molecule or atom respectively. Atomic Particles can be broken if the electrons, and other ions, are dragged away from the mass and the mass is taken apart, one by one, or in pieces, by removing their ions by selective radiation. This would only be possible by the presence of the proper catalysts and the correct frequency of ions being conducted into the test chamber, which must be constructed thoroughly and well.
Heat Particle - Heat Particles are commonly recognized as the type of particles which are the cause and result of friction. Although excess energy from friction can turn heat particles into electricity, we shall know that friction is the entirety of the function of heat, and this is based on the idea that a vacuum technically cannot produce heat, depending on the ionic density of the medium. The lower the ionic density, the less ions, the less likely heat is present. If there were no ions present, then the substrate may appear invisible. Volumetric particles are thus not ruled out as a possibility, such as in Vacuum Distillation, which still requires a large amount of heat in order to correctly function. The heat is likely arriving via the excitement of the materials which make up the glassware and test material, such as a metal or some chemical. The ions from these materials, thus begin to conduct, forming rates of increased Entropy and thus and outburst of Enthalpy, similar to Superheated water in a glass. Frictional forces are thus based upon heat and heat alone, where electricity serves as the source of particles which have already reached high enough energy levels to cause an electric shock. Thus Friction paves the way to understanding how to generate electricity directly from any type of radioactive substance, or substance in which ions are conducted enthalpy-wise at a rapid pace. Heat Particles travel faster than the speed of sound thus heat is generated by the ions inside of atoms which have enough kinetic/potential energy to change states from a structural particle into a heat particle.
Electronic Particle - This is known as the electron, and is capable of traveling at different speeds, and also can generate both heat and electricity, both very nearby to the Electronic Spectrum. The Electronic Spectrum is the array which dictates the nature of electrons in this world. To speed an electron up means to generate light, and to slow it down means to generate heat. Thus resistance as heat is known as the phenomena in which ions travel below the electronic barrier, which is a type of speed barrier that differentiates the electron from heat and light. The light barrier of course is at the speed of light, while the electronic barrier remains at the speed of electricity. Resistance can thus be removed by constantly controlling the speed of the electron. This Ion is what allows for an Atom to have a shield. The large amount of energy dictates the area of an ion's presence, as the local charge or kinetic/potential of an ion causes other ions to bounce off. Only a very specific wavelength or frequency will allow ions to come together to form a single structure, hence why gluons or sound particles and electronic particles seem to work well together. Hence we are to understand why music, or sound, and electronics, are so closely related. However Mass and Electronic particles are true opposites as is suggested by methods of Chemistry. Protons contain the Positive Charge and Electrons contain the Negative charge, thus structural ions are likely due to the presence of a Neutron and these are what Structural Ions most similarly represent. Electronic Particles are able to create an area of volume, which cannot be breached, due to their speed. As other ions attempt to enter the sphere of influence of an atom, electrons easily stand in the way, thus making it impossible for an atom of insufficient gluon/respective electron counts to form a larger structural entity. The sharing of ions, and thus heat, light, mass, and sound is thus based upon the formation of a plenum between an electron and gluon, as a plenum or boson is what allows the electron or ionic movement. Structures within the atom, are thus recognized by the ionic entropy behavior of atoms, or the movement of ions within the atom. It is theorized that an electronic particle can be stepped down and up to and from heat. Heat can thus be converted into electricity by first conducting the heat through some material, such as a ceramic. We then bring the ceramic to a high enough level of heat using thermite so as to get the ceramic, carefully held above the heated vacuum, then begins to propel electrons into an anode with the ceramic as the cathode.
Light Particle - A Photon is an ion which has gathered enough energy to exceed past the barrier known most famously by Einstein as the Speed of Light. Breaking this barrier is the exit from the physical dimension and into a higher dimension which is controlled by seeing outside of time and space and into the world of pathways, possibilities, otherwise known as Game Theory, AI, and the world of Psychology and Neurology to a degree. The total set of all pathways, is what a Photon sees and thus it is able to travel seamlessly through this world, as if it did not even exist. It remains unaffected since from a DATA perspective, to change a photon would mean changing or creating a new pathway, while a computer or system is functioning, and this can break the computer. Thus it is for the most part impossible for a Photon to travel less than the speed of light and still exist as a Photon. It instead breaks back down into an electron which is very much limited to the speed barrier of its class. Radio of course is the first transference of an electron into a type of photon, which can travel at the speed of light. Photons are thus the precursor to Data Ions, which are the foundations for the pathways which determine reality itself. Data Ions would be intelligent ions which can arrive at a location based on a preset order, while Photons simply blast their way through reality with no real set order besides the one's already laid out by the Data World, which is the next barrier after light. Photons can be used for a number of purposes, and exist as a FrequencyWavelength Chart ranging from extremely low to extremely high rates and wavelengths similar to a periodic table. The congregation of colors and atoms likewise are and can be seen in the same exact way.
Volumetric Particle - This is a particle of volume. Particles of volume represent the most basic unit of x3. They represent a vacuum, although much like other types of matter, this pure gas, like a pure liquid, is unable to reach a superconductive phase of being perfect, where liquids seek to be incompressible, gases such as a pure unit of a vacuum, seek to be totally without any other type of medium or atom present. It is somewhat impossible it seems, as liquids simply share their ions while gases seek to keep them separate. The nature of gases is thus described by volume, with the most basic unit of volume being a volumetric particle. In space, ions are still able to exist, although the lack of sound or heat due to the lack of nearby atoms, although they always remain ever nearby. This is the case for Hadron Colliders, and the ions which make up their sub-frame.
Data Particle - This is known as a bit, and is the world of Semi-Conductivity. Semi Conductivity is the ability for communication and processing. It allows for ideas, and exists as sets of data prearranged entirely. The moment it enters this world, typically via an animal or human being, it becomes an energy which has enough energy to have mass, and thus we are able to track the pathway of something imaginary, into something tangible, and Data Particles or Bits lay the foundation for this existence. Not much is known regarding these except they exist as the highest in frequency and are the inverse of control particles, which determine the space or parameters in which an object or idea which has slowed down enough to exist in this world, to exist. The only real evidence of Data particles is in the predictable nature of all things, and is the essence of Game Theory and AI. The frequency set for data would of course begin by finding the two non-functional units of Data, which would be based upon the two forces which determine existence. The Space something could exist in, and the thing that thing could be. This is pre-mass and pre-volume, and since these particles exist outside this world, it is possible for them to enter and exit based on the volumetric and massive particles discussed in this section. These particles are tangible to us, although data particles will seem very foreign, they are in fact the basis of our imagination, and can be used and constructed like any real and tangible object. Using them is the key to mental math, and understanding Savantism. Data Particles when interacting with Control Particles, eventually can form something which can exist in this world, and can thus be translated from something non-tangible, such as bits, 0s and 1s, into something real. Thus all objects are the creation of a combination of two sets of orders, defined by cos and sin.
Plenum - To remove all ions would mean to create a space of non-existence. This is what a boson is, but a boson large enough to do this would be something along the lines of a Plenum. Plenums thus should be recognized as singularities of different sorts but in wave form. In a flame and fire, this would dictate the pathway of ions throughout such a membrane. The extension of this membrane means the distillation of certain types of ions and thus possibly fusion within the plenum, or safe fission. Water is probably a great place to start. As Water travels in its separated form of Hydrogen and Oxygen, through the column, we are able to find their ionized forms available. Putting them together to form a new type of atom would be dictated be slowing the ions into their structural form, and compressing them in a specific amount so the total mass of the ion represents the atom. The amount of Sound, Heat, Electricity, and Light would be determined based on further research, and thus with all of these forces present, it is possible to construct an atom from scratch, or a series of them together or possibly in parallel. Thus we can understand the ability for atoms to come together in a certain order is sound, the ability to resist one another is heat, the ability to stay together is structure, and the ability to interact as electronic. The ability to see and be seen would thus be based upon light particles, which inherently are found throughout the universe, just like every other ion.
The Particles in question are essentially just ions. Ions are capable of traveling at different rates, and when viewed from the perspective of a supersonic jet, particles are seen as moving objects of light. The light is due to the interference of kinetic or potential energy when stored, and thus the ability to bend light and even produce light is perceived. The lower frequencies of this spectrum include gluons, while the higher frequencies include photons. The ions which travel at the speed of light are recognized as Electromagnetic Radiation and ions at the speed of sound likely have some other kind of capability similar to light. Ions thus can carry a certain amount of energy and it is often perceived as heat, stinging, or as electricity, as is the case with electrons, with enough energy to cause movement of the body, among other things. When electricity is sent through a circuit, heat is produced in excess. If heat is in excess, light is in excess. Darkness thus is the beginning of the wave, which begins as mass, which can produce an ion. An ion is a Planck unit of Mass and volume. An Alpha Particle is 4 units of only mass. An ion is thus made of broken Alpha Particles, or the destruction of the boson of an Alpha particle, which holds the units in place. The Alpha is comprised of 2 proton and 2 neutrons, a balance of ions, in which comprising the proton and neutron, or Fermions, are what we call Quarks. These are simply just ions of different orders, and can be described similar to UV and IR. Atoms thus are based on the number of ions in their system in static amounts, while the variable amounts would consider the ability for such structures to conduct either electricity, heat, sound, and light, magnetism, radio, IR, UV. Some structures are incapable, while others are more than ready. Thus we can differentiate between different ions and their role in Combustion. Ions of Sound, Heat, Light, and thus Ions of Electricity, can continuously be conducted from an open flame, based on the type of structure used to conduct such energy through a design. The Atoms necessary would have to allow for the slowing down or heat back into electricity, or for the speed of the ions to change from the nature of heat, to the nature of electricity. This nature is separated by walls, which act as the limit of a certain wave end behavior. This Wave End Behavior is most well known as the speed of sound, although it exists for a myriad of Behaviors, of which light behaves in the same function, although to a different degree/radian.
Particles and Waves both can be conducted, convected, inducted, either as individual waves, or as a myriad of different types of particles, we will find their behavior is based upon the entrance and exit behavior, into a structure. The beginning of such a structure, is known as the Volumetric Event Horizon, which is a term meant to describe the total area or perhaps even the volume effected by an Atom. We'll stick to the 2D for now. The actual surface of the atom or its structure, will be deemed as the Mass, or the actual event horizon, versus the amount of space created by the presence of such a mass, and its influence on the environment. The reach of such influence is deemed the Electron Reach, something metals simply ignore and this is called the Space Charge. It only exists in the presence of radiation or ionic interaction. Electronegativity is taken into consideration, meaning the ability for a larger number of electrons than normal to exist within and around a structure, such as Oxygen and other nearby molecules, although the interest will remain upon oxygen due to observations of Thermite and other oxidized materials, such as Rust, which likely oxidizes due to the ions being robbed by oxygen, which then assumes the responsibility of managing these electrons, among other ions present. The higher heat capacity of the oxide, is thus due to the ability for Oxygen to blend itself with a metal, who freely gives away electrons to the highly capable atom. The atom's structure is thus higher in potential than simple steel, and this is why the steel erodes to the oxidized structure of a metal and oxygen pair. The metal gives away its electrons, to the oxygen atom, then begins to act as a catalyst, allowing the electrons to fly at a much higher capacity than normal, from the metal, and into the oxygen atom, where this process is repeated until a speed is attained. This speed, or reaction, is started by ions reaching a specific speed, this speed typically being that of heat and light. Electrical conductivity, is thus the basis of such a reaction, and it is likely that there is also an electric charge capable within such a mixture. To reach this, the speeds of the ions, and of the electrons, would have to be the same, and the thermite mixture, while heating, would have to be cooled very slightly, and heated very slightly, until such a temperature is reached. Thus the nature of ions is described as the nature of their speed, in an order of the same magnitude as that of Light, where the frequency-wavelength relationship determines the exact nature of the particle (The Ion). In order to accomplish such a feat, the electricity barrier needs to be discovered, and transition an ion of heat or sound into electricity would have to be performed by the correct amount of particles per wave to a type of conductor. This would be the Cathode. As heat is able to escape the conductor, it travels towards the anode, where it is able to speed up. As it enters the electrical barrier, a spark should appear. This is the Electrical Barrier, and should create the same effects of a sonic boom. A Light Boom would simply be the initial flash created as a photon moves at the speed of light.
The Angle is denoted by Cos, an amount of Mass which thus influences other functions related to spacetime such as Torque and Voltage. We can correctly describe acceleration as x2 based on the following theorem. Mass can effect an area around it so as to bend the curvature of spacetime. This is well known. Thus we find why behaviors such as Torque and Acceleration can exist. Acceleration is the behavior of an[ f(object) in Time, over a certain amount of Space]. This essentially means that an object can bend time, depending on its mass. This should be obvious, as the larger a mass, or the more amount mass, the more time dilation. This time dilation is simply a change in the average amount of time present or time density. Time Density is based on the amount of mass relative to the amount of volume, in terms of the external forces of a mass, where the internal forces are described as the percent entropy of mass within the event horizon of a pure mass, versus the outside region where the mass is able to bend not just light, but matter itself into tiny particles where stars are made. The diffusion of hydrogen from gases in space into a mass such as a black hole, could for example begin the life of another star. This would be caused by the present of a boson, or combustion. Compression of the gases would create enough entropy of a certain rate to reach enthalpy, where a value away from zero is explained by the graph of an absolute value, a certain degrees away from the center of a mass, which determines the origin of the graph. An absolute value would represent the single direction in which a particle is deflected across a mass, the sign changed due to the relativity of the mass particle interaction, determined by deflection or orbit. Orbit is determined the distance of area effected volume in relation to zero. Deflection is the interaction of a particle with a mass, and the reflection of that mass, back into space, and its effect on the mass itself, the destruction of the mass, based on the type of material present, and the reflection of such a particle, either for orbit or for future use, as is the case with electron orbital pathways. Line behavior is described as two angles which meet on a flat plane to form a combined angle greater than 180 degrees at all times, the amount exceeding 180 degrees being described as the total change in energy of a system from mass to acceleration. The transition requires an interaction which is described as Bosonic, meaning there is an x3 present in the picture at such a location, thus the changing the behavior of our particle(s). This will be described later. Let us finish this example first.
Parabolic Nature: The greater the mass, the more torque is applied to an element. Once applied to such, we find the increase in torque due to mass causes the particle to fly further(meaning its total potential has changed), but at a slower speed(meaning the amount of inertia required is no longer present). Too much Torque, and the particle is unable to escape the local Entropic Atmosphere of the Atom or Material in question. This is perhaps due to the object disappearing, or some specific scenario which determines the maximum amount of torque available based on the type of material. Thus the material in order to fly the farthest, requires the highest amount of mass possible so the amount of torque used at launch something like a spaceship, begins to propel the ship, rather than destroy it.
The Angle thus is used to tell us about the nature of the Parabola and how we can use the angle of Convection to describe how a particle may escape from such an Atmosphere. By changing the amount of torque, we may perhaps change the intensity of an amount of Torque, and an object will be more free to move in terms of Torque rather than Inertia, which simply directs the object to a single point. Although important, it is the primary focus of our day and age, and thus should be tied together with torque to make a perfectly working space module, that can zig zag.
We can of course view an angle tied with a parabola to find a rating to define mass to a specific angle and this will tell us certain ratios for Mass. Mass ratios will tell us the nature of such a particle in its environment, in regards to volume. Since the total amount of volume to mass, in terms of its ratio, is equal to 1, meaning it a cannot exceed one, means that in order for x2 to exist, x3 would have to have a boson which covers the impossible distance created. x3 thus represents the presence of a Boson. The Angle tells us the Massive aspect, and the Radian tells us the Volumetric Aspect, or Cos and Sin. The more massive an object, the greater its angle, and thus the more torque that must be applied in order to accurately represent its diagram to a certain amount of volume. Since in most cases the amount of volume will already be balanced by an amount mass, we can begin to add smaller objects of varying mass and volume to begin Thought Experiment 1.
The Radian describes the high speed particle exiting a sphere. The exit point is examined as a radian towards an angle, which is determined by the amount mass of the particle, giving us a calculation if the amount coefficient friction is available by the wetting of the surface area or an anodized/non-anodized coating. Changes in mass can affect time accordingly, thus the amount of acceleration and its possible exit paths can thus be examined by the amount of mass present, in accordance to the exit point determined as a radian, which is described as the phenomena of radiation where a particle exits the atom's inner sphere, via combustion, past a boson, and into fire as it exits the sphere, such as when photons are firing from the center of the electron hole, the atom's surface, and into the physical realm where it is measured as a change in volume and pressure, especially is the case with Heat. The radian thus represents the point of exit for an atom, as it is a circumference based number. Since the Circumference and the Central Point of a circle and sphere are always tied at an exact ratio, we can of course find this ratio by dividing by the amount units that make up the circle or a subsection of that circle of the total circle whole. A sphere would be measured by a number of these units, so that an equal number of units is present on each horizontal and vertical level of the sphere.
The Path of the Particle (Wave+Particle)Edit
The angle combined with the radian give us a line, a curve with a straight end, which when compared to a perfect angle/radian are compared, will give us an angle. This angle should tell us the mass, and exit direction of a particle. Traveling through the membrane, thus likely will have an effect on the particle, and the measurements for this membrane can be discovered, based on the behavior of particles exiting an atomic structure. The angle of exit, will determine the mass of the atom, while the end velocity and inertia can tell us about the atomic behavior of different atoms. They are forces to be reckoned with.
The transfer of energy across a membrane is denoted by x3. This determines the midpoint of the Path of the Particle. The first half is presented by the mass, the angle, and the second half is presented by the radian, which is how an atom or particle is structured(volume). Rather than the particle flying inversely towards its destination, like torque would through mass, inertia prefers to travel via a slope, or a straight line of a constant rate, in one direction. Thus this is the function of an Alternating Current combined with a Direct Current, which correctly describes the parabolic behavior of waves and the direct nature of particles. Thus what we are truly seeing is the formation of electron and electron holes which is when electrons are removed, typically via water. They are donated by the atom to water. Electrons are the particles within a sub sphere that have enough energy to reach an active state. With enough speed they can reach the speed of light, and thus will exit the atom with zero spin and will be deemed a Photon. The Electron only has enough charge to travel close to the atom, but a Photon is able to exit existence itself and thus we observe the dramatic display of particles exiting the universe. Thus light is described as the excitation of electrons to the DegreeRadian, which is the superconductive form of particle behavior. The result is the elimination of the electron and its opposite spin counterpart to form traveling bosons, or particles of no discriminate matter. Thus it could be possible for a molecule to be held together by a free photon, which is when there is enough excitation available throughout a molecule to allow the presence of particle and wave to reach neutralization. This is better termed as a balanced molecule, and this is typically known as the stability of an atom, or ability to remain under different charges due to the presence of other highly charged atomic matter, such as Hydrochloric Acid and Sodium Hydroxide. Their large amount of potential allows them to hold atomic matter between what is typically just an ionic bond, and the atoms between them are slowly devoured until all of the excess energy is removed. The excess energy is then seen as the bubbling of the atoms into a vapor or gas, depending on the amount of temperature and pressure during the reaction. The Vapor and Gas states as well as sublimation states could perhaps be explained by the exit paths of particles from a molecule or substrate.
The exit paths of particles tends to ask if there exists a finite number of particles within the atom. If there were no particles left to enter the atom, then yes an atom can run out of particles.
The combined function of Torque and Inertia describe the movement of a living planet, where if done correctly allows for Tangent.
In order to achieve such, calculations would have to allow for the existence of a perfect Angle/Radian, which is the 45 degree angle or the Infinite Vector. It is essentially the Vector that represents Energy itself which can neither be created nor destroyed and so it is named as thus, and if it can be repeated, would replicate SuperConductivity which has already been achieved, although maintaining such a vector is a simple matter of understanding Induction and Convection of Alloys.
Since we have described acceleration as parabolic, at some point, the particle begins to fall, as most Vectors show. There is only such a finite amount of energy which can be conducted by an object before either sin or cos becomes dominant/recessive respectively. The rate of Dominant/Recessive Behavior away from a perfect angle describes spin. Since the particle is always reliant upon either/or, the zero spin is calculated by having achieved a type of SuperConductive capability which allows it to exist inside and outside of spacetime, at the same time, and in a single space (Rather than in two spaces and 1 point of time or 2 points of time but in one space, as most objects are). Spin is thus a description of how close or far something is from maintaining a perfect equilibrium( ). We can assume a rate upon a slope, which describes correctly the vertical path of the particle as it travels towards the radian, at a curve away from an angle, where the total spin present zero is defined as the midpoint of the path of travel. This is the nature of most objects in the universe as they are constantly spinning and traveling as a function of the same. Our universe thus uses Torque and Inertia as a method of travel throughout the universe, and requires a large understanding of Atomic Matter to be fully understood, as the inherent forces of Mass, Volume, Gravity, and Light, and the structures which can exist within this formula, will determine the behavior of Torque and Inertia, which is where pretty much everything in existence is located. Anything without Mass or Volume is simply the structure in which a total energy greater than mass and volume of the whole entirety of the universe combined, begins the entrance of a much larger Cell. This Cell is the higher dimension in which our plane of existence exists, and is commonly referred to as the place where our Univere's Server is located, as if everything in existence, is built simply off the excess energy of a larger system. Most people would simply call it the afterlife as their bodies, made of mass and volume, return to a different state of energy in which mass and volume, or space and time, have less of an influence, depending on how much energy is present and which system has a greater total energy. Thus total energy can be measured based on cos and sin, and the number Tangent representing where on the Universal scale some type of matter exists. There exists for example people with a lot of money, and people with even more money. There also exists that which is more powerful than money, and thus carries a higher amount of energy. The higher the amount of total energy in a system, the closer to the center of the Universe. This Center of the Universe, is thus deemed as the maximum amount of energy possible, and different universes or galaxies would thus be determined based on the amount of all matter, and their respective digit, present. Total energy, or Net Value, is thus how we rate structure. The amount of energy per system, in which more energy means more systems, of a different order, in comprising orders of energy. Each set of orders under a single system, repeated to eternity. This is the true meaning of Tangent. The largest possible system, is thus, the center of the Universe, or the largest possible system. This is the only way to grasp all existence, however it appears in likeness to every possible system in existence, unless some kind of disorder is present, and this is what must be fixed in order for any equation or idea to remain complete and correct. Thus I have described Tangent in its entirety.
Cooper Theory is the theory of electrons and the neutralization of their counter spin, likely via a gluon and two distinct path's of electrons around an atom or inside of one. Electron bonds are each made of two electrons, meaning a pair of two electrons and two gluons is present, where in Tangent we assume there is only 2 electrons for every 1 gluon. 1 electron for every 2 gluons, and we likely describe the more physical or the mass-dominant, while 2 electrons for every gluon the more volumetric. Cooper Theory only applies to electrons however, so the theory remains correct. With this in mind we are introduced to the two types of Tangent, which describe the two lines which meet in Origin or Boson. We assume the presence of a vertex, where zero spin is located. A second parabola exists where this vertex is shared between two points, and thus atoms, as well as ions, are given a temporary amount of spin before the same event occurs. This is the Neutralization Effect. At that point, the two particles become neutralized, and we find our radian based on the path of the Ion through the membrane, the point of the boson representing our exit. This line as compared to a point in which angle of reflection and an angle direct to the radian are measured. The Angle of reflection tells us the mass of our ion, or the amount of kinetic energy being used when compared to a direct path. A direct path would assume only velocity is present while if only a parabolic curve is present would tell us there was likely only acceleration or torque present. Thus we are to understand the exit path based on the idea of inertia, and the entrance path based on torque. The amount of spin, through the entropic environment of the atom, would be the only other variable left, so based on certain parameters it can be measured basic on the measurements of the enthalpic environment, where radiation in the forms of heat, light, and electrons and other ions can be detected. The exact measurement is based on the Angle and Radian, where when they are the same, we assume zero spin, like a photon. As spin becomes introduced, the exit path begins to change, and the difference between torque and inertia can be measured, and this tells us the nature of the ion itself, and where it will land, and how to control it, or return it back into the Entropic Environment which it is originally from. This is based on understanding how ions thus enter the atomic structure.
Entering the Atom is slightly different, where the angle is still considered to be the source of the mass, and the radian is considered the point on a circumference regarded as the entry point of an ion or particle. The wave-like structures of electrons and other ions is due to the kinetic energy they have on their environment, likely with other ions. I will assume so as a vacuum produces no heat, thus due to the lack of ions of the same type. A higher energy ion, such as an electron and of heat, likely don't interact, except in certain cases perhaps, I am unsure of this specific case but at least with Gamma and Radio, they can differ. Thus controlling the speeds of ions, and understanding how they interact, is the importance of the modern Day and Age. Thus we can describe the entrance of an ion into an atom as the function of two points, where the vertex of the parabola is labelled along the circumference or the event horizon of volume of an atom, determined by the electron reach of an atom, and the type of ion. The type of ion's kinetic energy is measured based on its speed and the existence of a basic unit which tells us a few tidbits about the nature of the original ion, which is likely a boson. A very small one, albeit it is likely based upon the existence of some movement, similar to a miniature tornado. This is the spin. The exit of this ion from existence, yet the ability to exist, deemed as the Tangential Equivalence Point, is the Ion's capability to reach zero spin or the energy requirement of light. The energy requirement of light is thus considered possible by all ions, and is the result of breaking the light barrier from heat. Heat, Sound, Electricity, and Light, and even Darkness, are thus related to the speed of the ions in question. The mass of Atoms thus remains unrelated to Radiation, and exists as a completely different topic than Combustion, which is more closely related to the aspects of Heat, Light, and other Phenomena such as Radiation and Nuclear Technology.
Determining Energy Levels ( )Edit
The Angle when combined with this radian will produce either two types of spin of opposite values away from zero, or a zero spin object which exists a certain radius away from the origin. The radius could be described as a z axis, as this distance away from zero determines the total energy of the object. The other two lines or the original angle, describe the amount of mass, and the angles of the parabola's tails describe the amount of energy required to create such objects, where a transfer of energy of two bosons then create a single parabola, and this parabola describes the pathway of an object. The quantity of values assigned alongside x3 determine which boson is the dominant or recessive boson, or if the two are the same, and thus we can find the pathway of a particle, and perhaps a wave as well. The location of the vertex, if the two bosons are the same in value, is represented as the maximum value that could be attained under balanced conditions, or as Stoichiometric, thus representing our maximum value. The dominant and recessive bosons thus interact so that the vertex is located closer to the recessive boson. This will change the angle of exit of the particle, and the future angle of arrival, as well as their respective radians, if present. In this scenario the two will be different thus the entropy will be discussed based on those two values while the outside interaction or enthalpy would be based on the amount of force the object possesses outside of the atom or structure. The height of the vertex or the y value will be less of course as the parabola needs to remain balanced on both sides to be correct. The balance is maintained by the Radian, where the circumference is discovered as the location of such a vertex, thus a sphere can be graphed by different values of x and y to a perfect parabola, where the radian is described as the location of the difference between two values of x.
The two values of x represent the two possible values for each of the bosons. A third boson would allow for the perfect flight of any material, as long as the three bosons are maintained, and this structural integrity is related to the capabilities or the amounts of mass and volume respective to a material, which determines its inherent nature. Thus the inherent parabola of all matter, is the amount of mass present. A number is assigned and this number represents the amount of mass, as long as the graph remains true. Thus the total distance between two points of the graph, determines the amount of mass of an object and its relation to string theory is based upon how a mass splits itself into separate pieces, based on the amount of electrons present. Electrons represent the peaks and thus as well the possible methods of travel, or the waves, and this is how objects exist in space time, so a certain number of units of mass, and their distance from each other, volume, determine the behavior of a species. Electrons are responsible for telling us, all the data necessary regarding such a species. Using electrons for such a purpose, is deemed the key to understanding the relationship between the world known as Artificial Life (3D Universes, programming, internet) and our Earth or our Parallel Universe of Existence. Mars is likely a separate dimension of existence and connecting to it is like building a server, between the two bubbles of mass. The outside region of the mass known as space, are like bonds. At the connection point of these "bonds", there exists some kind of boson, where a transfer of particles takes place, thus the planets are held together by such a force. These forces are related to gravity, electromagnetism, electrons, and light(due to the change in gravity). Thus based on the amount of mass present on a planet, and the array of atomic moleculi present, the color of light and it's associated spectrums are curved at a rate dependent specifically to the local region or atom or mass/volume sub sphere or object. Since light has the ability to travel along the curvature of time create by space, and changes in mass cause this, the color of light on Mars thus is vastly different. This is true for all molecules, and even atoms when arranged as a grid, the thickness of such a grid determining whether something can be transparent, or reflective. Reflectivity is simply partial transparency, where a lattice can be observed if one is cognitively aware of the existence and the direction of the lattice itself. It can be viewed on any metal that has not been oxidized. Once oxidation takes place, the light passes through the oxygen atom, and its volumetric region which is the result of the excess electrons of the region, and thus the light instead of traveling a large radius around the mass of the metal, simply travels around the mass of oxygen, meaning the light is bent, and so the color is as well. A darker appearance is shown, and this is known as the mass potential of an atom. The atom's structure is analyzed. There exists a metal of which the proportion of mass to oxygen is in favor of the metal greatly. The volume however is in favor of Oxygen due to its electronegativity. The increasing electronegativity is due to the propulsion and thrust of the ions of the oxygen atom being increased more than normal. This is due to the nature of Electronegativity, in which a valence shell is full. The Space Charge of the Metal allows the electrons to travel through this region, via the oxygen atom, bolstering the volume of the region by creating a shockwave of volume for the oxygen atom to use as storage for electromagnetic radiation, and then returns to the less electronegative Metal where the catalyst propels electrons through its lattice structure's interior design, in and then out of the metal. The Lattice Structure is proven by observation, where light can penetrate the metal, if the metal is allowed to reach the correct level of ionic conductivity. Once this occurs, metal begins to glow red, which is its natural state. Metal is otherwise frozen and similar to ice, maintains a transparent appearance. This transparent appearance is similar to the sheen of a mirror, although typically one will only see glimmers of white, silver, and some off colors from the viewer's half of the reflection. It is actually possible, if the lattice is long enough, for the light to make its way through from the other side of a quarter, and like a prism, the light is reflected at an obtuse angle over the surface of the lattice to the other side, through the coin, like a tunnel.
Quantum tunneling is thus the state in which conductivity is present. This is what makes computer capable of sending data so quickly, otherwise the amount of energy to send the data, would cost more than the data itself. Thus energy is transferred, via the membrane, and not through the membrane. The membrane itself, acts as the doorway, where there exists a myriad of possibilities. Understanding Metal, and its structure, is the key to understanding Quantum Tunneling and the ability of metals to act as a Catalyst. Quantum Tunneling is thus defined as the ability to conduct energy via a membrane, without taking part in the reaction, thus metals provide the correct environment in order to conduct electrons, or ions, of any speed.
The explanation thus is described by the speed of electrons moving through a system of a metal lattice shape. The speed of electrons eventually turns red as the ions move faster and faster through the structure. Eventually the structure can shatter, due to fractionation of different types of ions (based on their speed). Slower ions and faster ions, much like light, have different abilities and one of them includes shattering a lattice, like that which occurs under induction or via electrolysis.
Oxidation is one of the methods in which electrons or ions are able to escape the metal's structure, and once oxidized completely, the metal must give up entirely those two electrons. The combination of this structure is an Oxidized Compound, where a process similar to combustion occurs. Upon being heated, electromagnetic energy or free ions of a specific speed enter the structure of the atom. This increases the total amount of volume of the atom. Soon, the atom begins to separate, as the number of ions is too large for the mass to control. Typically the atoms split from each other, as molecules tend to do under heat, and the separation begins. The holes in the atoms or their volumes let in or out excess ions from the entropic and enthalpic environments, and the ions begin to make their escape either towards an atom or away from one, as heat tends to do. The cold would simply crystallize everything until everything was stable again, this results in bonds having mass. This is the nature of the gluon, as it attempts to huddle together in the same way as electrons. This is a different type of ion. It is similar to the difference between UV and IR.
Gluons bring together the atom, and electrons ensure the connection, cold increases the condensation of the gluons and the heat ensures the separation of electrons. Thus the internal structure of an atom is dependent on the forces of ions, which can vary in different speeds to change the structure of atoms, and also the amount of Entropy and Enthalpy in their respective environments, that of the world of atoms(the space they exist in), and that of their inner structure. These two dimensions, are kept separate by the membrane I am mentioning, and this membrane is created by the presence of electrons. Electrons thus are responsible for separating atoms from the outside world, while gluons are responsible for putting them together. Gluons attract the electron, and the electron then neutralizes with another electron at that gluon.
This is how atoms are able to stick together, when this pair or bond is upset, by the ionic forces of other compounds or energies in the region, the atom then begins to separate from its counterparts, where higher energy bonds are made. The goal of atoms is to reach the highest energy possible, while the goal of ions is to reach the lowest energy possible. Thus, ions constantly seek to separate from one another, while atoms use ions to bring themselves together. Thus we have completed our description of atomic matter.
The Membrane Dividing Combustion from Fire is of the same nature, and is what allows the Quantum Aspect of Fire and Combustion.
At a certain point, the amount of torque reduces itself until there is nothing left, at which point I assume Quantum Tunneling takes place and the electron is placed into a different dimension where it ceases to function in this plane of existence. This is due to the fact that it has escaped from the world of Matter which is made entirely of the conglomeration of different fields and scalars all intertwined to form an environment of objects.
With enough Acceleration, the particle can continue until it is accepted by the Entropic Atmosphere of another atom. To proceed this far, the amount of Acceleration and the Amount of distance covered must be exactly the same, or perhaps more. Depending on the type of mass function used, we can apply Torque, Acceleration, etc.
Thus Fire can be in part observed as the spin of particles escaping from an Enthalpic Environment back into an Entropic environment. What we are literally seeing is atoms escaping as Particles from the Singularity of Fire, which is described as the Planar. The Combustive center is deduced as the Entropy, and the Exhaust or Afterburner in some cases, defined as the Enthalpy. Particles are thus going through the fire, and are observed as types of Spin, which we can observe as Wrinkles of the Flame, the occasional sound or crack of something breaking the sound barrier. Thus we can determine the rate of speed of particles in a flame.
Under Combustion, we can observe the downward traveling Planar (Thus a Planar can be described as both a single line and as two lines to form an Area of Work), which tells us of atoms entering the flame from above. It seems unlikely, but should hold true, as white smoke in a flame travels downwards, even if it is already past combustion and in the fire, as is observed readily and frequently, although it may also travel upwards in certain situations, based on the substrate used for combustion. A fire alone tends to give away all of this smoke, while a fire combined with combustion tends to drag in air to fuel the flame.
Depending on the angle of the particle from the point of an impact, and the resulting vector based on an Interaction between the rebound of that particle into a point on a Membrane, or Circumference, we find two possible results and one total solution for the entire system, which is solved by a simply combination of the angle and radian to describe two parts of a single whole, which is formally defined by both Entropy and Enthalpy, where in Entropy a Line touches but does not cross a Line and in Enthalpy a line crosses and continues past the other side of the Line, thus we have perfectly described the movement of energy within a Membrane, described as Internal Energy for Entropy at the current moment[Written 2017] and energy that proceeds past and through a membrane, the line on that side being described as Enthalpy.
Fire consists of Perpendicular Stress where a change in Total Volume from the Partial Volume(in one case) or for example when creating a new Partial Volume, we find in the first case we create an equilibrium difference of potential which is known as a Critical Point of Entropy. The location of the difference, between an internal fire and an external fire, is within the planar created by the flame and fire, where a boson is present between the two structures. As we examine more closely a flame and a fire, we see the difference between combustion and inflammation. Between the blue flame, and the red flame, there is a boson, and this is the cause of the flame and the fire in the first place, yet it is not dependent upon the flame, nor the fire, but by the perfect difference between the two, much like electricity, and all other atoms in existence. In the second case we create a shockwave or an ionic form of mass and volume, where over a total volume, we describe a ratio of magnitudes between particles becoming more wave-like, where Entropy/Enthalpy ratios of mass:volume are compared to large amounts of enthalpy from a large form, to a highly enthopetic mass, with volume describing the inverse of Enthalpy, which means we are viewing induction from a fire, reaching the shockwave itself. The difference between Combustion and Fire is described as the blue and red parts of the familiar Electron Frenzy we've all seen, which is caused, in part, by the typically calm exterior of an Atom, being flipped inside-out to show the true nature of the Internal Structure of an Atom, which is total insanity on every single level. It is like the Atom's Internal Structure is somehow being released into this world, like popcorn popping, the hard outer shell reveals a twisted interior which when exposed fully consists purely of starches and less so of the difficult to eat Corn Kernel. Thus we are to understand the similar structure with an Atom, and perhaps of interesting Phenomena such as Ball Fire. The Entropy of an Internal Structure is turned completely into Enthalpy, on every single level, and thus we are able to observe the internal structure of an atom as Fire and Combustion. By Understanding Fire as nothing more than a change in state of the Atom, we are able to describe two basic movements to create both Combustion and Fire.
Entropy: An internal temperature difference - Internal Work, like inside an Engine
Enthalpy:An external temperature difference - External Work, like outside of an Engine
Defines More Internal Work and Less External Work - A State of Rest - Zero would describe a SuperState
Defines a system at a perfect level of efficiency where the amount of work inside and outside the atom is the same.
Defines a System in which Energy typically inside the atom has found its way outside the atom, and typically results in the degradation of a material, such as with Radioactive Isotopes. Alpha, Beta, and Gamma
The Entropy thus describes what is happening inside of an Atom, or inside of a Room. The outside of the room or Atom, would not change at all, unless the Room had something like an AirConditioner. The outside becomes slightly hotter, and the Inside slightly cooler, in the same amount except for the amount it takes to activate a plenum. This Plenum, operated by electricity most often, describes to us a middle state in which a very large of amount of energy can be saved, and thus if this occurs, a much larger amount of energy can be converted between Entropy and Enthalpy.
The Planar describing the Membrane, which divides internal energy from its inverse, external energy, or the medium which guides the transfer of energy from one state to another.
- The first state when described as Internal Energy and Internal Energy alone is described as Entropy, the state of Combustion. Everything done to the system by the system to change its state, is Enthalpy. Enthalpy simply describe the movement in which Movement itself turns itself into Heat and Calmness into Cold.
Entropy being described as Volume and Potential turns itself inwards during the Combustion Process where Pressure and Volume are decreased into a combined state, similar to Fusion. Under these terms, Fusion energy brings the atoms together, and prevents them from separating. The membrane forms, which when unperturbed, stays at a complete calm or a perfect state of Entropy, which describes Movement under a System, the System being still and non-moving from an outside perspective. To reach a state of Enthalpy from here, would require going through the membrane or Planar as described in Combustion, and out and into the Physical World from the Atomic World. At this point, the Entrance of Energy or Work into the Physical World creates Dynamic changes to the static forces known as Pressure and Volume, hence why we define Enthalpy by the amount of change in pressure and volume, as a function of the same. Thus we can describe a System both in Terms of Enthalpy and in Terms of Entropy, where the combined state tells us: The Entropy describes the Internal Energy, and Enthalpy by itself, when not described by Entropy, describes the change in the Volume of a Structure, thus Entropy hereby describes Mass while Enthalpy describes Volume. While Enthalpy is described by Volume and Pressure, Entropy thus describes Mass and Shear Stress. which when mastered will produce regenerative, and constants of, energy as a means to power both motors and generators, and other types of vehicle mechanisms. Internal combustion is an effective means to power any moving object, and to control its direction. We call this an Angle of Direction, and thus relate Combustion to Torque, rather than inertia, as it allows Society to work in terms of Degrees quite well.
Hydrocarbons thus are similar to electricity in which coloumb-like structures appear, electricity and shockwaves are thus integrated into a single topic. This is the essence of Combustion.
Degrees are defined as Angles of Direction, an Angle represents Mass. Mass is effected by Torque, Acceleration, Time, Voltage, Degrees, and other Wave-Like Behavior.
A System is defines the combination of non-functional units used to create a Vector. A Vector can be based on an Angle0 and a Radian1 combined to give us an effective Number which expresses the function of the Vector : Acceleration(Angle[Two Lines/Points]) :Velocity(Radian[One Line/Point]), where the Radian tells us the exact point on a circumference the destination and the Angle tells us the path, thus all methods of Transportation would require such Knowledge, as well as the field of Ballistics and Missile Defense.
Combining Acceleration to VelocityEdit
On a graph to find the total distance and speed of a line
we begin in the left side of the graph:
Imagine a line first behaving in terms of f(x)=x2 - This covers the amount of torque or acceleration. The reason for this is because of the amount of time and space covered during acceleration. Under more mass, more acceleration is to be attained, thus we are also to say that time is changing as well. The reason for the change is due to the forces of mass and time being one and the same thing. Here is the reason.
In Quantum Physics, everything exists as a combination between particles waves. Waves exist on one side of the scale, and particles exist on the other side. Between these two points, exists a mascaraed of possibilities, of varying numbers or amounts of waves and particles to form an object we see in everyday life, no matter how complex it becomes, as the amount of numbers increase into infinity, to create larger and larger, and smaller and smaller fractions which come back together to form a total of 4 points or directions of existence. Into the larger, dominant to either side forming the first set of two points, which is more wave or particle like based on the dominance, giving us the top two quadrants, and the infinitely smaller which forms the bottom quadrants, which is either dominant or recessive to a side as well. The mixture of dominant and recessive features of particle and wave natures is what gives us the basic scale of existence for all matter. The finite part ends or, shall I say, begins, is the nature of SuperConductivity, and other Phenomena, which is known as the Boson, which is non-representative in all forms of matter except as a mere SuperPhenomena apparent in all existing items, thus we are to assume the following:
All Apparent Phenomena, or Bosons, are a point on the line between Particle And Wave Behaviors. Each Boson can create an item, of any sort, based on the equation denoted, typically by some type of internal and naturally self-aware structure, which is known as its programming or code. DNA, is one obvious example, however other examples exist. We humans call it the everyday factory.
The Boson thus is a point on this line anywhere between Particle Behavior and Wave Behavior. Cos and Sin, are the two examples of Particle and Wave behavior, and as such tangent would be the Boson.
Thus, String Theory is to be concluded by the most basic assumption. 0 = 1
Zero equal to one.
Thus we can observe the line as it moves through space, and a point of time which crosses it. This point represents a Boson. The object thus exists a certain point into infinity, and this tells us how much energy it has, like counting electrons in a way, or protons. It's the same scale as light. At a certain point, there is a threshold, and that threshold determines existence in this world. Everything else is partially outside of the fabric of spacetime, and is more basic in structure. This is the case for Radio, which can travel outside of the physical constraints of space. It travels at the speed of light as it is Electromagnetic Radiation. So, a point in time and space tells us exactly where anything is located. A point between Mass and Volume tells us what kind of atom we have and how many electrons are present.
Time exists as the past, present, and future. Thus we can based all equations on these three variables. Space would consists of X, Y, and Z. Past, Present, and Future are something akin to the EMR scale, we have UV and IR on the sides, and in the middle is the visible light spectrum. This would be Z, with X and Y representing the left and right side. Z thus begins at the physical spectrum, which is defined by 3D, our world. A 2D world would mean you are likely not made of anything physical anymore. Thus dreams are likely a different type of physical dimension, something akin to the internet to a book. One is simply a more physical version of the other, though both are inherently the same exact thing. The amount of energy required to use such however is much more in the internet/dream case. Dreams require much of the energy you would typically use for the waking state, and thus we can determine that our existence in this realm, is mostly related to Energy, and the aggregate amount of energy we have in circulation, as a whole. Removing resistances, among other things, and other facets of society which would be described as holes in spacetime which have yet to be discovered.
Bosons thus can be discussed as points in spacetime, in spacetime and at the same time not, as their existence isn't brought about by something physical but simply the interaction of Cos and Sin to create something physical, and that physical thing is a certain point away from cos and sin and that is called Tan and that is the amount of energy required to create such an object.
The first line describes thus the beginnings of the Physical Realm, which is Cos. Cos is based off of Mass, Time, Voltage, and other more Blue/Dark hints of life. It is heavy, slow, and moves things around at an obtuse pacing, rather than acute, which represents Sin, fast, and quick, and acute, it hits at a more white/red version of reality. The combination is the spectrum of light, which gives us the Physical Realm, which is where we are, partially. The Distance from the 0, into the boson, will determine the energy, Tan, which would be (h) or the height of a Triangle. The distance of the boson, from the left or right side, respectively, tells us whether something is Dominant or Recessive in terms of its behavior of Cos and Sin. When it is in the middle we have what is called a SuperConductive State. A Perfect Angle. This Angle, describes to us, the greatest guide to understanding Radians more clearly. It would be Tangent, and so we have represented a Tangent Line, which continues into infinity, as the Tangent Angle/Radian. It is neither an Angle, nor a Radian, and so it serves as a guidepost for understanding the difference between the two sides of a circle. The point, and the circumference.
Thought Experiment 1Edit
A Large Torque is Applied to a Dominantly Massive Object and this same torque is applied to a Dominantly Volumetric Object, so that the amount of volume was inversely equal to the amount of mass in each of their respective parts, and so that the Torque was large enough to move both objects readily, what would be the end behavior of each object as it travelled through space?
In Space we first assume that there is always mass, in the form of a Black Hole, as Volume, its counterpart, exists in the same way to Mass. Mass and Volume represent the beginning of this Thought Experiment.
The more Massive Object, moves at a parabolic rate, according to this mass meaning its increases in speed are not constant, and its distribution of energy is of a much lower frequency, meaning it will travel with more distribution of its vectors into time. This space is judged as the Parabolic Area. This Area determines the limits of Torque on an object. This is the Parabola, which defines an area of Mass, both the internal and external influence, over a certain area and distance of space and of time respectively to each other and their inverses. This value can be based on the total amount of combined Cos, or the combined aspects of Mass, Torque, etc. The parabola of course has a much larger area at its bottom than closer to the vertex, meaning the area of influence is much larger at the beginning of a cycle, than at the end. This is iconic of Cos behavior, and of course Combustion is thus represented as Cos. The Slow Blue Flame travels in Waves across a surface. This is Parabolic in nature and thus Combustion can be measured by the simple value x2 Which can be represented by a number of different variables of different sorts.
shows of course, no object itself, or its movement, as the object is defined by a space and not a point on the space, nor a point on this line. Anywhere within the highlighted space, an object of varying degrees can exist, and travel within that space, as the Parabola is used to define the parameters, of the maximum efficiency of that object and the force applied. Thus within that space, a curve can be drawn, and this can represent the path of the object itself, and this can describe the behavior of the object. The total distance from one end of the parabola to other describes Cos, and the distance from the point of impact, to the end destination, as a Y value, represents Sin, or the amount of inertia, volume, etc. By placing all the values under Cos and Sin, you can have a much larger and simpler idea of what can happen in a point of time or a volume space.
Thus the basic idea is conferred, the original idea I wished to express, which is that torque will effect the amount of left-right movement, and inertia effects how far such an object travels towards a single point, which is labeled as the vertex. It should be just one number, a radian. The Angle tells us the point of entry of a mass. The line between the two is dependent upon the respective angle of the mass, and the radian of entry into a sub sphere. This is the nature of Radiation.
Thus the first half of the line is described as a Curve, Parabola, while the second half is to be described as a straight line. This straight line represents Inertia. Inertia describes the direct path an object takes and this is the behavior of the second object which is volumetric. Although a large amount of torque is applied, the extremely low mass means our parabola to represent Cos or x2 is much smaller than normal, meaning the total possible behavior for this object, before we add spin, is restrained by the parabolic nature of limited mass. On a Graph it is present of a low value number for the value representing Torque, such as 2x2 or 3x2 versus say 145 or something along those lines. That means the width of the parabola is much less, its total distance, and thus the amount of distance that can be covered in space is also much less. The amount of Inertia in the strike will change the Y behavior of the Parabola, and this tells us the total distance the object will or could travel under perfect conditions towards the vertex(Inertia). X behavior is left/right movement and Y is the Distance forward. If a lot of Inertia was used in the impact, meaning the strike was directed towards a vertex or a single point, rather than a multitude of different impact points, which is Cos behavior, then we obtain a result. We of course track the change in angle of the Inertia of the object which is striking to the object being striked, and this will tell us more about spin. The large amounts of Inertia of course can only be attained based on the amount of mass, as the graph cannot simply grow smaller in width to attain a larger value, as that would mean the amount of mass would change. Thus we have our environment which is the environment of the thought experiment itself, the empty space, which can only be created by a certain amount of mass. We have here the first two variables to determine our graph, which is made of a slope, and a curve, tied together at the vertex. Thus our display of space time is partially complete. Within that space we simply create an object by getting a certain amount of mass, and a certain amount of volume, and getting an interaction to occur between the two to form whatever object we wish, based on the criteria of the equation that would determine the existence of that object, such as time, place, and tangent, or energy. It all sounds simple, such as differential equations, once you collect enough then you are said to be intelligent.
The objects in question are made of mixtures of mass and volume, and the environment is simply a giant amount of both mass and volume, although we exclusively view the volume. It seems it's actually impossible then as it moves to a second origin begins to behave in terms of x3 - This describes the change from Acceleration to velocity, a flip so to speak across a planar's point or the Boson.
The first part of the line can be described by Cos.
It starts as a parabola from the Cos side, as Tangent has split itself into x*x*x. x2 and x. x2 is more dominant the x. x is recessive. x defines the slope. x2 defines the parabola. When x is dominant, we have more Velocity than Acceleration. When x2 is dominant, we have more Acceleration, or Torque, than Inertia. For example: A thought Experiment
then ends at x1 as it either continues into infinity when there is no other point of mass present or once again into x2
where the flip from Acceleration into Velocity is again described.
The continuity of this flip is based upon the amount of Mass and the amount of Volume present, or Space and Time.
The Graph Is described by a certain value of Mass and a certain value of Space, which can be represented perhaps as Distance, where Time attempts to devalue distance, as Distance tends to exist outside of Time, Time being described as an area of Volume effected by the presence of some Mass. The more Mass and the less Space covered within a Volume, the more time. The increase in Time is thus an Increase in the amount of Mass present within an enclosed volume. The Volume of a Sphere, in 3D, related to the Value of its center point, which represents a Singularity.
An increase in Time thus in the World of Combustion is Combustion itself as a Total Function of the Fire whereas the Duality is represented by Combustion and Fire.
Acceleration thus provides us the information regarding torque, time, and other Scalar based mediums, what may occur in a system. An example of a system would be how the rotation of the planet can effect its direction or path, and the radian would define the end point of arrival for such a system, while the angle would tell us the general direction in which the planet is moving. A combination of the two tells us the behavior of a system based upon the two non-functional units Sin and Cos to describe Tangent or total behavior of a system [Often deemed unpredictable].
Defined as a pre-planar movement with photo receptivity as the blue of a fire or flame, often observed as the first part of any ordinary flame. This part of the flame prefers to travel downwards. It can be observed in the following situations: High Speed Film on YouTube, where a two stroke engine has been fueled with all types of Hydrocarbons, where combustion is observed as the blue light. Flammation is the red and gold light of the flame, and includes oxygen, lots of it. It With enough Entropy, we can reach a Critical Point known as Ignition. Once ignition occurs, Combustion begins, however if the dividing line between Combustion and Ignition can be maintained, then Fusion can occur, where the perfect mix of Entropy (Chaos) and Combustion (Control) can create a new species of behavior. This behavior is defined as the Elements, Molecules, which we seek to create. Ignition is thus deemed as the Peak, where a Boson passes, and after it passes, then one would say we are in a mode of combustion. At this point, the molecules begin to degrade and form into new molecular structures which we will observe under collapse with red light. The space charge of the atoms is reduced, and we see the collapsed structure as a speck of dust, cooling down from the heat. Once it runs out of heat, it can be observed as dust. These can be collected.
Detonation - An Internal Force causing an external collapse, similar to a volcano collapsing inside out. Related to Increasing Mass due to Internal Acceleration, or Acceleration from a circumference towards a central point(h,k). The Mass of an Atomic Structure begins to split itself from its original structure and if maintained can separate atoms and their respective volumes as well, if the speed of the mass exceeds the EM Shield of the Object in question. Can be exothermic or Endothermic. Often requires an insanely high velocity as the mass prefers to be a single object, rather than multiple objects of the same total size and energy, as a function of the volume present within a system. Thus the Volume of one object will not be as much as the volume of that same object split into two, it would be much less, thus more volume is required for a successful fission reaction. A Fission Reaction thus would remove volume from the air.
Pressurization - The External Pressure or Force causing an electron shield barrier to collapse or a Magnetic Dipole Moment, thus releasing the EMR from the internal structure of an Atom, into open Space. Free Particles become available at this point, where Electron Shields no longer exist, and EMR is free to move anywhere it wishes, so that atoms only exist in their quark structure from an intermediary moment of time. Total Magnetic Dipole Moment or Critical Point Structure. During Fusion these quarks would be free to move about, and would thus be recontained via the reintroduction of Electron Shielding of the Separate quark structures or Masses, or Alpha Particles. The Balance between Pressurization and Combustion will likely determine the end Product, similar to Distillation, we simply need to turn off the electron shielding via partial combustion and controlled entropy of a system.
Reaction - A Term used to describe a start to finish circuit of electron movement of some sort.
Intermediary Reactions - A Type of Reaction which produces a type of Intermediary Compound. A mediary product would produce a half-produced product. Premediary reactions would produce a quarter product. This is used to describe the nature of Combustion.
Combustion - Pre-Planar Movement : Planar - The invisible wall that describes the difference between the two types of flames, combustive flames and ignition flames.
Combustive flames - Combustive Flames occur in vacuum. They are unable to burn oxygen. Oxygen will burn red, but Hydrogen will burn blue. Oxygen is more likely to Ignite than Hydrogen, but Hydrogen is more likely to Combust, hence we prefer to use HydroCarbons as fuel, where the Carbons help to conduct heat to release the hydrogen atoms into a fuel-air ratio determined to be Stoichiometric at all times.
Stoichiometric - Stoichiometric means Planck Units.
Max Planck - Max Planck deduced Planck Units, the smallest possible unit for any system to function.
Wave-Like Behavior Combustive Flames - More on Combustive Flames - These types of flames exist in waves and burn a specific wavelength of blue at a specific and natural frequency, as if to thump the ground, which can be heard as a slight premature shockwave, as a thump. They act as waves propagating through a medium, typically within a sealed vessel where all oxygen has escaped, due to the wave-like nature and particle-like nature of the fuel mixture interacting during combustion to form a sealed vacuum in which a pure combustion flame may propagate until Gas-Liquid Equilibrium is reduced to non-existent.
Planar - Described as the plane which divides Combustion from Ignition.
Ignition- Notice the lack of "In", to create the word inflammatory. The basic process is that a particle approaches the combustion reactor and as it does so, combustion begins to take place, via some outside force related to the particle in question. The Particle exists pre-ignition as a floating piece of dust, perhaps just the particle itself, an Alpha with some type of invisible Beta Coating. This Beta Coating is to explain as we observe the atom begin to decombust and deflame back into a small speck from a flame ball as observed in NASA's Space Laboratory. It is available on YouTube and can be observed freely by the public.
Alpha - Defines an Alpha Particle, although not in the form of isotopic breakdown but instead in the form of a central atom to form a much larger superstructure, known in most superconductors as a type of Boson. Bosons come in all shapes and forms, and can be deduced as the central structure to all Energy based Phenomena.
Beta Coating - Defines the Volumetric Structure of an Atom, as well as its space charge, although the density of such a coating, can change based on the total amount of volume relative to its total mass, of both a molecule, and an atomic structure which we recognize as the one word, Atom.
DeCombust - To break down Plasma back into the space charge, back into the molecule, and back to the atom in the presence of other molecules.
DeFlame - This process involves the removal of the planar-based electron gap, which allows a flame to begin to propagate, and as it forms, we then view wrinkles.
Fire - Defined as post-planar movement in which the escape of ElectroMagnetic Radiation, from the combustive volume of an atom to the reactive and inflammable space charge outside the atom, can be observed as Photons escaping from the internal structure of the atom.
Wrinkles - Defined as lattices or lattice structures entangled together to form a visible inflamed material species. The introduction of a space charge to the atoms, allows luminescence in the form of escaping electromagnetic radiation from the lattice structure, the sounds formed by the interactions of the lattices forming into a new lattice, as electrons tie two separate structures into a single structure. The structure being defined as the lattices themselves. The lattice is likely of oxygen, as the gaseous state and the inflamed state are two separate states. The Inflamed State shall be deemed a Plasma, or type of Plasma, in which Particles from within the atom find themselves far enough outside or away from the atom to induce Electromagnetic Radiation or Propulsion. This equilibrium reaction will produce light or photons as a result, and the atom is ejected into the upper atmosphere as a result of the radiation of heat, light, and likely many other types of EMR. The amount of the atom which collapses during this process from Combustion will determine what type of radiation will exist. Heat likely comes from the stored volume or a density of volume or pressure, thus pure entropy. Entropy being defined as the amount of movement within an atom, in this case of particles of photons.
Photon-Electron Interaction - According to QED Photons are eliminated by Electrons but this is not the case. Looking more closely at an atom, we can view the structure of an atom as a bubble. The electrons travel around that bubble, as if it were water. Electrons are the peaks and waves are between the peaks, the electrons travel around the mass and electromagnetic radiation from the interaction of the mass to a respective volume, if enough, creates a difference in potential which will allow an atom to remain lit. Thus, to increase the volume of an atom, heat is required. Once this heat enters the atom, the internal structure of the atom will expand. As the internal structure begins to combust, heat is released, as well as photons from the proper volume to mass ratio of an atom. Thus we can understand the relationship between photons and electrons.
Photons and Electrons - Photons and Electrons coexist in the subsphere of an atom. Electrons determine the volume of an atom to be considered, their distance away from the singularity called Alpha tells us the total circumference of an atom's volume. Electrons exist just outside of this range as they are constantly forming from particle to wave, like 0 to 1, this consists the membrane of an atom.
Fire would be when the electron dispersion is far enough to allow enough volume to equal one unit mass. This exact amount of volume, will determine the exact mass of an atom, knowing the distance of the electron from its center, or the radius.
The internal structure of an atom is thus determined by the distance of electrons from the center of an atom, deemed r for the Radius, and the mass is determined by the amount of Massive Radiation present. This is determined in part by spin, to determine the stability of an Alpha-Based or Massive Particle. A Mass, if it has enough spin, and is in the presence of other particles, such as electrons, will be able to split itself without any of the volume of an atom present. This typically happens within the atom as it exists in this world. If there is not enough energy, or spin[there are two types, the zero spin is the neutralization of the two types of spin] the atom will not be able to separate itself. If there is enough, it will remain separate, and will be able to gather and form together into a larger structure, thus as a system, Atoms can grow and accrete in size as a function of the amount of total spin in their system. Spin can be induced by of course the satellites of the mass itself.
Case - Hydrogen:
Two are required, in my opinion. Thus we can view the very valuable and highly researched Hydrogen for such a purpose.
At an atomic structure we know Hydrogen commonly exists as H2. We understand that its least common form is H1 or its aqueous form, which is as a Lone Hydrogen with a Gluon, which I defined above as the wave-likeness observed over the ocean, versus peaks, which is displayed of course as well in atomic structure, or in any aqueous structure in which there exists something highly dense and moving. The less movement, the less peaks, and the less energy in those peaks, and thus gluons can be observed as calmness in the atom while electrons can be observed as irritability, its inverse.
Peaks - Defined as the inverse of Valleys in Wave Structure or movement when viewed laterally, or from its side.
Valleys - Defined as a gluonic energy in which a crevasse may form between the peaks of the Electron Shield or EMR bubble.
Electron Shield Behavior - Electron Shield Behavior describes the Shielding of the Atom from outside influence, including massive energies, torque, acceleration, and other phenomena in the Physical Plane. The Atomic Plane is observed as the state of Atoms, their Internal Structure into the massive structure within the atom and the External Influence outwards into the Physical Plane.
Velocity on the other hand, will allow anything to enter into the atom. The Massive Structure can perhaps be destroyed by The Velocity. A Velocity is inherent within everything, and is able to obliterate an atom's structure, although it can also give it more strength if contained correctly.
Acceleration on the other hand, can only carry such structures, rather than obliterate them directly. The Wave can destroy Atoms by carrying them at a rate enough to separate their individual parts. This is based on the size of a wave of course, the larger it is, the more speed it will have, without gaining any particle-like behavior. A particle is thus deemed to be Velocity, and a Wave thus deemed to be Acceleration.
In a Fire, we observe two parts of the Flame. The Internal Combustion and the External Flammation. The Blue and the Red parts of the fire respectively. Acceleration or wave-like behavior describes the Combustion while Velocity or Particle like behavior describe the Flammation.
Thus with Hydrogen we can observe the Massive Center, being an aggregate of the Two Separate Masses combining together to form a Single Mass. Thus we can call this first Chain a Combustible Fuel. What likely happens is the two electrons for each of the two protons exists oppositely on the left and right side of an atom, or the top and bottom, as the peaks and waves continuously form back and forth at the proper resonant frequency.
The waves represent Gluons, and the Peaks represent Electrons. Hydrogen in an Aqueous State is without its electron as electrons are dispersed throughout space in the form of H2O. Two lone pairs exist and the Oxygen molecules are thus able to pull Anions away from Hydrogen Atoms and other Cations away from their host. Immediately, the empty hole of the atom begins to give off radiation. EMR flows through the Cation, and into the Solution which is full of atoms. This is described as an exothermic reaction. More mass would be added to a structure than volume is removed, thus there is a reduction in the total volume of an atom, although the initial and starting volumes will likely be very different, the key is to know the Total or Average Mass/Volume ratio of the constituents of a reaction sequence.
Hydrogen when Aqueous is thus described as Hydrogens with wave structures as the dominant electromotive force, as a single proton. It is always removed from another atom when Aqueous, thus Acid-Base reactions can be understood as a Reaction between a Cation and Hydrogen. The reaction ends when either every Cation or every Hydrogen is used up.
Reaction Strength = Atoms of Cations / Atoms of Hydrogen Ions =0
Shockwave - Massive Energy that exceeds the speed of sound in order to form the shock or excitation required to induce demolition of atoms.
Soundwave - Defined as Atomic mass in sequence before the speed of sound
Planar - Defined as the dividing line between Detonation and Shot
Intake - Defined as input - Wave Behavior -
Detonation - Defined as Peak input - Particle Behavior -
Shot - Defined as pre-Output - Pre-wave behavior
Fire - Defined as Particles
Particles - Defined as a volume of matter vaporized within a space of air
Particle - Defined as a single constituent of matter
Matter - A unit of Mass and a Unit Volume
Mass- A non-functional unit of Time, Acceleration, etc. Scalars Cos
Volume - A Non-functional Unit of Space, Velocity, etc. Fields Sin
Tangent - Defined as the difference in potential between two non-functional units.
Wave - Defined as a constituent of particles
Waves - Defined as Particles to make up a volume of matter
Wrinkle - Defined as Waves of Particles
Exhaust - Peak Output - Wave Behavior +
(1.1) - Cycle 1 Chart