Population Potential Model
The population potential model measures the cumulative influence that all of a region's population exerts on a given point, weighting each place's population inversely by its distance. Introduced by the astronomer-turned-social-scientist John Q. Stewart in 1947 as part of his 'social physics', it borrows the gravitational-potential analogy from physics: every population mass contributes potential at a point in proportion to its size and in inverse proportion to its distance. Summed across all places, the result is a smooth potential surface that maps relative accessibility, market reach, and demographic pressure.
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Sources
- Stewart, J. Q. (1947). Empirical mathematical rules concerning the distribution and equilibrium of population. Geographical Review, 37(3), 461–485. DOI: 10.2307/211132 ↗
How to cite this page
ScholarGate. (2026, June 22). Population Potential Model (Stewart's Social Physics). ScholarGate. https://scholargate.app/en/human-geography/population-potential-model
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