1 / 15

Re-Evaluating the Reciprocal System of theory

Re-Evaluating the Reciprocal System of theory. Questioning the Rotational Base. If one can have linear vibration , without anything to vibrate , Then Why cannot one have rotation , without anything to rotate ?.

erv
Télécharger la présentation

Re-Evaluating the Reciprocal System of theory

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Re-Evaluating theReciprocal System of theory Questioning the Rotational Base If one can have linear vibration, without anything to vibrate, Then Why cannot one have rotation, without anything to rotate? The attempt to answer that question led to a 4-year research effort by KVK Nehru and Bruce Peret... and they discovered the answer. But the answer, itself, is not as important as the journey getting there...

  2. Larson’s RS identifies 4 distinct “regions” of speed, with 3 boundary conditions: Space/time s/t Time/space t/s Material Sector Unit Speed Cosmic Sector Unit Space Unit Time Time 1/t Space 1/s Regions of Motion Regions Space/time (Larson’s time-space) Conventional reference frame. Time/space (Larson’s space-time) “Anti-matter” (cosmic) reference. Time Atomic configuration space. Space Anti-matter configuration space. Boundaries Unit Speed Crossover point between material and cosmic sectors Unit Space Boundary between the conventional reference system and the region of material atomic configuration. Unit Time Boundary between the cosmic “anti-matter” reference system and the region of cosmic atomic configuration.

  3. Space/time Region Speeds For now, only the material sector perspective will be considered, as that is the region of our common experience. • Translational motion has a minimum quantity of 1, because the natural datum of motion in the RS is unit speed. But there is no upper limit to that speed. The units of translational motion are the natural units of linear speed. • Rotation has no minimum quantity, so it can only exist as a modifier to other motions. It has a maximum quantity of 1 (π), because further increases move the angle back to its starting point of zero angle, where the rotation repeats. • The minimum quantity of motion will always occur. Thus, linear motion in space/time will always occur, which we observe as the outward progression of the natural reference system—the “Hubble Expansion”. • From the perspective of the space/time (Larson’s time-space) region,linear motion must precede rotational motion.

  4. Time Region Speeds The Unit Space boundary separates the Time Region from the space/time region, making everything within the inverse of the space/time region. Zero becomes Infinity; Infinity becomes Zero, and Unity stays Unity. • Rotational motion has a minimum quantity of 1, because the natural datum of motion in the RS is unit speed. But there is no upper limit to that speed, so the angle of this rotation can be infinite. This type of rotation, where it doesn’t loop around back to zero, is called a “Turn”. • Linear motion has no minimum quantity and becomes “optional”. When it does occur, upon reaching its maximum it turns back and heads towards zero, producing a vibration, measured as a “Shift” between “Turns”. • The minimum quantity of motion will always occur. Thus, rotational motion in the time region will always occur, which we observe as a “rotational base”. • From the perspective of the time region,rotational motion must precede linear motion.

  5. Primary and Secondary Motions Primary Motions Given a natural datum of Unity, the minimum quantity of motion must always occur. These are PRIMARY MOTIONS: Secondary Motions When there is no minimum quantity, the motion can act only as a modifier to a primary motion. These motions are always rhythmic in nature, because of the maximum quantity of 1 unit. These are SECONDARY MOTIONS:

  6. Geometries When we compare the characteristics of the time and space/time regions, it becomes obvious that the space/time region is represented by rectangular (linear) relationships, expressed by real numbers and the time region is represented by rotational (polar) relationships, expressed using imaginary numbers (aka “rotational operators). • Rectangular and Polar geometries are geometric inverses of each other, and thus abide by the reciprocal relationship that is the basis of the Reciprocal System of theory. • Each region must therefore have an underlying geometry attached to it, to properly determine the rules of perspective transformation to account for the influences of the observer principle.

  7. The key word here being: perspective. Even with this simple reciprocal analysis across the unit space boundary, it becomes obvious that the location of the observer must be considered when analyzing the systems of motion, for without it, contradictions abound. With the advent of computer modeling, the techniques for creating perspective transformations have become well-defined and commonplace, known as the study ofProjective Geometry. Learning from Contradictions Two seemingly contradictory claims have been made: From the perspective of the space/time region, linear motion can occur without anything moving, but rotational motion must have an underlying linear motion to rotate. From the perspective of the time region, rotational motion (turn) can occur without anything to rotate, but linear motion must have an underlying rotational motion to vibrate.

  8. Space/time Region Time Region Primary Motion Linear Translation Primary Motion Turn Secondary Motion Oscillation as Rotation Secondary Motion Shift Geometry Euclidean:Rectangular Geometry Euclidean:Polar Number System Real Number System Imaginary Dimensions 3 Axial Dimensions 3 Planar Geometric Perspectives

  9. Names of Motions Primary Secondary Space (Rectangular) Translation Rotation Counterspace (Polar) Turn Shift Space and Counterspace Counterspace is the inverse of “space”; the space of common understanding, and is nothing more than a name for a “polar time region”. The cosmic equivalent to counterspace is “countertime”, the inverse of time, and is the “polar space region”.

  10. Spatial (Euclidean) Geometry Point Origin Plane Plane Infinity Point Unit Boundary Parallel Lines Counterspatial (Polar Euclidean) Geometry Spatial & Counterspatial Geometry

  11. 1 0 Inward in Counterspace ES ES: Equivalent Space P0 Π∞ ∞ 1 0 Inward in Space Time Time: Motion in Time Only Π0 P∞ Directions of Motion Outward in Space Outward in Counterspace

  12. Summary of Regions • Each Region has an associated geometry, with associated limits. • Crossing a unit boundary causes an inversion of geometry and limits. • The location of the observer plays an important role in interpreting motion. • Projective Geometry, with its tools of space and counterspace, can be used to effectively transform motion from one region to another.

  13. Summary of Motions • Linear translation CAN exist without something to translate. • Linear vibration CANNOT occur without something to vibrate. • Turning CAN occur without something to turn. • Rotation CANNOT occur without something to rotate.

  14. Conclusions • Unit linear motion in the space/time region is identified as the progression of the natural reference system. • Unit turning motion in the time region is identified as the rotational base. • Rotational bases exist at ALL locations in the natural reference system.

  15. Epilog • Can rotation exist without something to rotate? Yes… within the Time Region as the “Turn”. • Do “direction reversals” occur as a primary motion? No… only as a modification of existing motion. • Part 2 of the RS2 Presentation uses these conclusions to create non-unit motions: photons and particles.

More Related