Rule 22 of 36 · Chapter III — Force & Motion
Scale decides which force wins
Why this rule exists
Different forces scale differently with size. Weight grows with volume — length cubed — while surface effects like drag, tension, and muscle cross-section grow with area — length squared. So as a thing shrinks, area-based forces come to dominate volume-based ones: an insect is ruled by surface tension, a whale by gravity. Which physics matters is not fixed; it is set by scale.
In practice
Before deciding which forces to keep, compare how each scales with size, then discard the ones that shrink away at your scale. Estimate ratios like surface-to-volume to see whether gravity, viscosity, or surface tension dominates. This is why you cannot naively scale a model up or down and expect the same behavior to survive.
Example
For an object of size L:
Area ∝ L² (drag, heat loss)
Volume ∝ L³ (mass, weight)
Ratio = area/volume ∝ 1/L
Halve the size -> ratio doubles:
small things are ruled by their surface.When it doesn't apply
Scaling arguments assume geometric similarity and a single dominant regime. Near a crossover, two forces compete and the simple ratios mislead; and at quantum or relativistic scales new effects enter that have no classical size dependence at all.