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Fields/Forces, Form (Velocity and Volume) and Experience/ Influence

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  • Fields/Forces, Form (Velocity and Volume) and Experience/ Influence

    Fields/Forces, Form (Velocity and Volume) and Experience/ Influence

    The velocity and volume of a object determine the quantity of forces which are associated with that object providing its has a quantity of velocity or volume larger than zero. In a isolated representation of each force not representing the quantities of the other two for any of the given examples where momentum is, U, gravity is, G and magnetism is M, volume and speed being V and S (Speed).

    VS = U, VS = G, VS = M,


    When there is a attracted object and VS is re associated with the object attracted not considering the attraction (being a change in speed) and its effect on the object causing attraction’s velocity and volume and subsequently its fields, the magnetic pressure (Mp) and the gravitational pressure, (Gp). Again presuming the attracting objects volume and speed to be constant irrespective of modulation by change in other synchronously existent forms/objects or the change in speed of the attracted object to cause the following relationships:

    V is proportionate to Mp while Gp is volume times speed (VS = Gp).


    The influence on the universe can be revocable while is simultaneously to a varied degree irrevocable, the influence being variation in quantity. The influence is specifically on existing field/s (gravity/magnetism) and is to cause effect on forms or is not dependant on the fields source being manipulated by influence.

    In order to capture irrevocable influence the sensitivity can be varied accordingly by manipulation of the modulated objects velocity, utilising any pre existent field.

    Sensual phenomenon is a product of change in any of the given fields, experience is sensual phenomenon.


    As a result of the decay of a field by the square of the distance, VS = M, and VS = G, change in the velocity of a object causes a modulation of the velocity of all objects that synchronously exist in the same moment as the change in the velocity of the primary object, this resultant field fluctuation serves to create a interactive series of forms where by no relationship can be observed between two forms as a isolated relationship as is mentioned in the second statement, this relationship can only be analysed to the highest degree of accuracy by enabling the ability to isolate the relationship desired to be observed/ measured via a complete record of the field fluctuation capable of being assessed for the same point as the measurements themselves are made, thus enabling the cancelation of the influence of everything which is not desired to be observed.


    As a consequence of the relationships, VS = G and VS = M with respect to what the represent they enable the continual accumulation of velocity which is a product of the acceleration cause by, G and the subsequent change in G which is characterised by a change in velocity. Internal acceleration (acceleration by the fields of the volume accelerating) is the characterisation or archetype of form. The archetype of a synchronously occurring series of forms is analogous to “white noise”, a nearly infinitely long and nearly infinitely intricate series of changes in quantity.


    A divergence being the product of the interaction of multiple forces while date is the deduced measure of speed of constant frequency. (Force being used to represent both magnetism and gravity)

    The divergence’s volume’s rate of increase is proportionate to the date for a fixed/ constant agreed upon time for the divergence to exist, the time as previously mentioned (being a measure of the period of divergence from motion) is also proportionate to the date.
    Where the rate of increase of divergence volume is - Vr,
    The time the divergence exists is - t
    The date being - D,

    Vrt = D or Vr times t equals D.

    For any rate of decrease the divergence volume, Dv is inversely proportionate to the date (D).

    1/Dv = D

    The specified relationships (Vrt = D, 1/Dv = D) again are subject to the archetypal sequence of change in fields that is continual (non repetitive) and a product of the existence of form and force. Thus the highest degree of accuracy can only be attained via irrevocable influence (with respect to the equations) for the function of superimposing all non specified influence (in the equation) onto the measured quantities.


    For the rotation of a disc while it has motion in the form of a orbit about a central point with radius (the orbit) , C.
    The volume moving in the direction of motion, (of orbit) B, and the volume moving against the direction of motion, H.
    C (the radius of orbit) offsets the stated volumes.
    For counter clockwise rotation and clockwise orbit with a supposed attractive and isolated gravitational force on the disc the square of the radius (C2) is proportionate to the net gravitational force/pressure on the disc while the rpm, (R) is inversely proportionate to the net gravitational force/pressure on the disc. (N)

    C2/R = N

    For clockwise rotation of the disc and clockwise orbital motion the forces of the disc as net quantities (for the whole disc) supposed in their isolation of measurement from one another when magnetism is given by (M) and gravitation (G).

    R/C2 = M, R/C2 = G,

    The consideration of both situations (C2/R = N, R/C2 = M, R/C2 = G) is had in relation again to the caused modulation of gravitation and magnetism in all forms synchronously existing by the changes in gravitation and magnetism of the disc and also to the pre-existent fluctuating field strength caused by the interaction of synchronously existing forms. Considering the first example to be present in a atmosphere motion can be a subsequent cause determined by the buoyant force on a object, seen as the gravitational attraction decreases inversely proportionate to the R.P.M then beyond a certain point the two forces become imbalanced, the buoyant force is a product of pressure difference (over/across the disc) and surface area exposed (of the disc).
    Last edited by Sam J Batchelar; 05-21-2017, 03:11 PM.

  • #2
    Continuum Rules and Origin

    Rules are ascribed to the volumes of substance not the substance-less volume.

    The rules ascribed to the volumes of substance are not contradictory or multi faceted (tangible) therefor they have a origin.

    The origin is formless, constant, multifaceted and contradictory.

    The substance-less volume is always the larger volume and therefor the emphasis is on the volume of substance and the associated rules.

    This is representative of a facet of the origin of tangible, non-contradictory rules/components.

    The net result of multiple volumes of substance and the specific associated rules existing in a larger substance-less volume is perpetual unpredictability.

    This is also representative of a desire of the origin and therefor a facet (of the origin).

    The origin is infinitely manifest in singular instances while simultaneously unique in each instance therefor it does not have a origin and thus is eternal. So universes are infinite in number and virtually all have unique properties. There underlying characteristics are to accommodate for the consistencies in all origins while the unique properties accommodate for the inconsistencies.

    The consistencies in the origin in the universe have given the product of perpetual unpredictability which is manifest by the specific rules of acceleration and force surrounding volume with substance increasing the the velocity of the specific volume causing the acceleration of the other volumes (of substance). The primary volume accelerates the secondary volumes and thus the influence in the acceleration of the primary volume is modulated. Also the specific directional acceleration given to volumes (by the primary volume) is varied based on the relative position of the accelerated volumes (to the primary volume) with respect to sensitivity (of change in the primary volumes velocity and its consequential change induced in the other volumes which is manifest as a product of the existence of multiple volumes of substance. Furthermore upon the comparison of volumes (secondary) in different relative positions (to the primary) variation in the secondary volumes velocity and volume yields variation in the sensitivity of response in force and acceleration.

    Linear acceleration from the primary volume is responsive to change in the secondary volumes velocity while the primary objects radial acceleration is only responsive (like the linear acceleration) to change in volume (not change in velocity).

    However the specific characteristics of the components (how they attain the product of continual unpredictability) is in itself a product of the inconsistencies of the origins/the individual origins involved.

    Existing components of the continuum can be varied (some directly and some in-directly) by the origins. (As the components came to exist). So through indirect variation all components can be varied.

    Another representative effect of consistency in origins is the effect of a singular volume of substance upon itself which is innately accumulative due specifically to the nature of linear acceleration and its respective sensitivity to change in speed.

    The effect of this accumulation with multiple volumes of substance is determined by the direction of the linear acceleration while radial acceleration is only capable of causing external acceleration.

    The radial pressure of volume (of substance) is utilised in the suspension of multiple volumes of substance in stationary positions relative to one another while the linear acceleration (of this structure) can either cause accumulation of velocity and stiffness or cause deformation of the substance with respect to the comparative difference between the individual distances of the multiple volumes (of substance) in the structure.

    The lowest possible quantity of acceleration (radial and linear) for any finite volume is the stationary position. The acceleration being on other volumes.

    In a complex rotating structure the external application of pressure to this structure from the same position and in a constant direction causes a resulting displacement of the complex structure. The internal pressures of the complex structure require that if the displacement is held the externally influencing force also must be held. Upon release of the external force the displacement restores to its original state with a acceleration which causes there to be a subsequent inversion of the displacement. This sequence spreads throughout the complex structure. Over the rotation of the complex structure while there being applied a pulsed pressure the subsequent oscillation causes the material to always have a gain in velocity above its translatory velocity (as a product of the external force) and a subsequent gain (for the complex structure) in both radial and linear acceleration.

    For a number of volumes (of substance) greater than three all resultant acceleration has a radius of curvature. For any rotating volume (of substance) moving then in this situation there must always be a offset in the areas of the volume moving in and in opposition to the volumes motion. Then the influence of any external/other volume in linear acceleration is subsequently varied in quantity upon variation of the rotational velocity. This is a consequence of the linear accelerations sensitivity being varied by both speed and volume and the associated changes in sensitivity from the same external influence for change in speed for a given quantity of volume or for change in volume for a given quantity of speed.

    All ascribed rules are applied to all volumes of substance. The ascribed rules associated with volume of substance are; time, linear acceleration, radial acceleration, linear pressure, radial pressure, surface (upon contact) pressure and surface (upon contact) acceleration. The only in-directly associated rule/component is time influence volume.

    Time is motion, therefor variation of time influence volume is variation in the motion of volume (with substance).