In the depths beneath the complex structures of atoms, below the realm of quarks, strings, and fields, under even the pervasive Higgs Field itself lies the unifying foundational fabric of reality conceptually termed the Eververse. Understanding eVersic science poses a formidable challenge, necessitating a significant simplification to make this complex realm comprehensible. This simplification process involves reducing the Eververse's ten dimensions to a more familiar four and abstracting away the temporal dimension. This enables focus on a single instance within the Eververse, offering a comprehensive view of the universe at that singular point in time.
The fundamental reality within this framework is composed of only two essential units: spin (notated as Ė̇ṡ) and torque (notated as Ė̇ṫ). These elemental units merge to create the most basic structural entities of this model, known as Eververse pixels (Ė̇cell). As atoms are simplified to nuclei and orbiting electron spheres, an Eververse pixel is depicted as a rectangular structure made from three torque units along its edges, with a spin unit placed at each corner. The center of this structure is a void, entirely devoid of light, fields, gravity, or any matter.
Both spin and torque units have a distinct dimensional presence, each measuring one Planck length in diameter, with the torque unit also extending one Planck length in length. Thus, an Ė̇cell forms an entity with a volume epitomized by a void that makes up 3/5ths of its total, measuring 25 Planck units in square area by 1 Planck unit in height.
Torque units, imagined as cylindrical forms with flat sides, can rotate in three possible states – forwards, backwards, or stationary. Spin units, envisaged as spherical forms, also possess three potential rotational states: forward, anti-spin, or rest. The rotational state of these units significantly influences their interaction with adjacent pixels and affects the rotational dynamics within their own and neighboring cells. Conversely, the rotation states of torque units impact the cell's structural integrity, thus affecting the interactions and arrangements with neighboring cells.
Through this abstracted framework, a conceptual model is elucidated, shedding light on the foundational principles that underpin the Eververse. This serves as a crucial window into the mechanics that construct the fabric of reality. Within the architectural confines of the Eververse—a simplified narrative constructed over a three-dimensional, timeless plane—the fundamental constituents, namely, the spin and torque units, adhere to unique governing principles. Should a spin or torque unit become detached from its pixel, it dissipates, vanishing from its original location. However, this doesn't result in a void within the Eververse fabric. According to the laws of conservation of energy and mass, a new unit instantaneously emerges in the precise spatial position, inheriting the spin of its predecessor, maintaining the Eververse's perpetual equilibrium and structural integrity.
Expanding our view, each moment within the Eververse unfolds as an endless expanse of pixels. From the perspective of the initial event, often likened to the Big Bang, the concepts of positive and negative values for torque and spin emerge, with the infinite Eververse mostly remaining in neutrality, save for the subtle ripples of torque expanding from the original point of incursion. This understanding highlights the intricate balance of the Eververse, emphasizing the importance of initial conditions on its continuous evolution.
Landsbury's Laws of Gravity, comprising fifteen axioms and 34 conjectures, encapsulates this framework, with the first axiom stated as:
L-1: Ė̇± (constant) = (α^10) x (ℓP/c)^(1/π) ≈ 7.245414... × 10^-36, highlighting a force, either attractive or repulsive, dependent on the orientation of adjacent spin and torque units, thus unifying all forces in a singular theory.
In essence, all matter and energy in the universe are expressions of the cumulative warping of adjacent Eververse pixels, painting a comprehensive theory that unites the forces of creation into a singular, profound narrative.