Core Model

The marr equation’s foundation linking space and time.

Dimensional Impact

Version 1.1 reveals how a higher-dimensional intrusion sparked the big bang, reshaping our understanding of cosmic birth and expansion.

Life Viability

Exploring how matter, energy, and dimensional cost combine to create conditions where life can emerge and thrive.

THE MARR FRAMEWORK

The MARR Framework explains the four physical primitives behind the equation. These primitives are the building blocks of Life Viability. They describe the conditions required for any environment in the universe to move from raw existence toward stability, structure, and eventually life.

THE FOUR PRIMITIVES

Space Support (S)
Space is the capacity for structure, separation, and form. More space allows systems to stabilize, expand, and interact without collapsing. Space increases the potential for order.

Time Stability (T)
Time is the duration and consistency needed for anything to develop or persist. Stable time allows processes to unfold, structures to form, and change to accumulate without interruption.

Dimensional Cost (D)
Dimensional Cost is the resistance imposed by structural complexity. High D makes stability harder. Low D makes change and formation easier. When D falls, systems have a greater chance to organize and maintain coherence.

Matter or Energy Presence (M)
M is the material or energetic substrate that anchors reality. Without matter or energy, nothing can form. More M increases the potential for stability, structure, and interaction.

HOW THE VARIABLES INTERACT

The MARR Equation measures Life Viability using these four primitives:

L = (S + T) / D × M

Life Viability increases when space expands, when time becomes more stable, when dimensional resistance decreases, and when matter or energy becomes more available.

Life Viability decreases when space is too small, when time is unstable, when dimensional cost is high, or when matter or energy is scarce.

WHAT THE FRAMEWORK SHOWS

The MARR Framework treats life as an emergent physical result, not a coincidence. The same formula applies whether the system is microscopic, planetary, cosmic, or theoretical. Any environment can be evaluated using the same four variables.

The framework also explains why life is rare in some places and common in others. Environments with large space, consistent time, low dimensional resistance, and strong matter presence naturally trend toward higher Life Viability.

This page establishes the system that all extended theories build on. The Hypothesis page explains how these variables first entered our dimension. The Cosmology page explores how the framework may apply to the behavior of spacetime itself.