Figure Set Caption
Syntax: Ellipse = Tension Field; Red Line = Dominant Force; Blue Dashed Line = Tension Transfer
Figure 1. Continuous Tension Field in Canvas 127.
1. Ellipse (orange dashed line) = Tension field 2. A red diagonal line (bottom left → top right) 3. No blue line. Meaning: Tension continues, does not transfer.
A single diagonal active path establishes a continuous tension axis across the field. The absence of lateral transfer indicates that tension is maintained along a persistent directional trajectory without redistribution.
This structure represents a continuous system in which stability is achieved through uninterrupted path progression.
Figure 2. Distributed Tension Field in Canvas 155.
1. An ellipse (orange dashed line) 2. A red diagonal line (major axis) 3. Two blue dashed lines (horizontal + vertical) Expressing: Tension is dispersed in multiple directions.
A primary diagonal active path is supplemented by orthogonal lateral transfer paths, enabling redistribution of tension across the field.
This configuration demonstrates a distributed system in which tension is not confined to a single axis but is spatially balanced through multi-directional propagation.
Figure 3. Re-Activated Tension Field in Canvas 221.
1. Ellipse (orange dashed line) 2. A red diagonal (major axis) 3. A blue horizontal dashed line 4. Overlapping with a light red diagonal line. Meaning: Tension transfer returns to the major axis.
A diagonal active path is temporarily interrupted by a lateral transfer path, followed by re-activation along the original axis.
This sequence demonstrates a re-activation system in which tension is not dissipated but re-engaged after directional redistribution.
The structure reveals a dynamic tension behavior characterized by persistence, transfer, and re-alignment.
Comparative Tension Systems across Canvas Structures.
| Canvas | Core Behavior | feature |
| 127 | Continuous | Continuous in one direction, without shifting |
| 155 | Distribution | Lateral tension distribution (not uniaxial) |
| 221 | Re-Activation | After tension transfer, it "returns to the main axis". |