nonidealization

Nonidealization is a methodological stance used in science and engineering to model systems by explicitly including departures from ideal conditions. It contrasts with idealization, where simplifying assumptions such as frictionless motion, perfect information, or uniform properties are deliberately adopted to make analysis tractable. Nonidealization aims to capture the messier, more realistic aspects of phenomena in order to increase the applicability of models to real settings.

It appears across disciplines. In physics, nonidealization accounts for dissipation, viscous forces, and nonuniform materials. In

Practices associated with nonidealization include empirical calibration, stochastic and agent-based modeling, sensitivity analyses, robust optimization, and

Supporters argue that nonidealization improves model relevance, policy applicability, and reliability under real conditions. Critics warn

Nonidealization is related to discussions of realism in modeling and to the broader philosophical debate between