Properties of 2D energy fields

A 2D energy field is a two-dimensional entity. It has only length and breadth as its fundamental spatial dimensions. A real entity in space essentially exists in all spatial dimensions of the space. Hence, however small its third spatial dimensional measurement may be, a 2D energy field has its existence in the third spatial dimension also. A volumetric space is made up of great many parallel planes, in contact. If a plane is considered to have no thickness, any number of parallel planes cannot constitute a volumetric space of any thickness. Since 2D energy fields occupy volumetric space, each 2D energy field has certain thickness and there is a definite separation between two 2D energy fields in adjacent parallel planes. Parameters of a 2D energy field or other 2D bodies can be accurately determined only after evolving a mathematical system that can measure thickness of a plane or breadth and thickness of a straight line. Combination of 2D energy fields (universal medium), as envisaged in ‘Hypothesis on MATTER’ [described in the book, ‘MATTER (Re-examined)’] as a substitute for space, has the following inherent properties: These properties are derived from inherent properties of their constituent quanta of matter and mechanical structure of their latticework formations. 2D energy fields are two-dimensional entities made up of single-dimensional quanta of matter. Each 2D energy field exists and acts in its own plane. Only one 2D energy field exists in any one plane and all possible planes in all directions in 3D space contain one 2D energy field each. 2D energy fields in different planes, passing through a point in space, co-exist at the point. However, each 2D energy field can act only in its own plane. Quanta of matter in a 2D energy field are held under compression from their ends, in quanta-chains situated in perpendicular directions, crossing at junction points between quanta of matter. In the stable state of a 2D energy field, constituent quanta of matter form sides of perfect squares in its latticework structure. A change from the stable state produces restoring reactions in the latticework structure. 2D energy fields are self-sustaining entities. They strive to sustain their integrity, stability, homogeneity, isotropy and serenity. Each 2D energy field has an adhesion within itself and tends to maintain its continuity in the plane of its existence. Tendency of 2D energy fields to close-in any gap in their structure produces phenomenon of gravitation. 2D energy fields fill the entire space outside the most basic 3D matter-particles. Each 2D energy field extends indefinitely in all directions in its plane. Since there are no voids (or limits to the extents of 2D energy fields), no 3D matter-particles can exist outside 2D energy fields. All higher-dimensional spatial systems exist within the 2D energy fields and all higher-dimensional matter-particles are disturbances with respect to 2D energy fields. 2D energy fields tend to reduce disturbances in them to minimum; either by reducing their sizes by shaping them circular and compressing to smaller size and/or by ejecting the disturbances from the site of their creation. All 3D matter-particles are created from, sustained by and reverted back into 2D energy fields. 2D energy fields provide an all encompassing universal medium for all 3D matter-bodies and apparent interactions between them. On the whole, the 2D energy fields are perpetual and steady in space. No new 2D energy field is ever produced. They provide an absolute reference. Region of 2D energy fields, about a 3D matter-body, stores work in the form of distortions (and energy in the form of stress, associated with the distortions) to sustain integrity and stability of the 3D matter-body and its current state (of motion). Distortions (work-done) and corresponding energy in two 2D energy fields cannot interact directly. Transfer of distortions or interactions between distortion fields are limited to the plane of each 2D energy field. Simultaneous actions in many planes appear as an action in 3D spatial system. 3D matter-particles are displaced in space by the transfer of distortions in steady 2D energy fields. Absolute motions of matter-bodies are with respect to the steady 2D energy fields. 3D matter-bodies are moved by 2D energy fields rather than the bodies move through 2D energy fields. Latticework structure of a 2D energy field causes sequential development of distortions in neighbouring latticework squares. Distortions, once developed, remain permanently within the 2D energy field, unless removed by external action. These phenomena give rise to the property of inertia. Interactions between two points in a 2D energy field are confined to the plane containing both the points. [In order to avoid theoretical possibility of more than one 2D energy field passing through two points, here, a point should be understood to be having the smallest area and be a part of one 2D energy field plane. So that, there can be only one 2D energy field passing through any two coplanar points].