What question did this study set out to answer?

To provide a model where gravitational acceleration emerges from buoyancy forces due to pressure gradients, avoiding fundamental assumptions about gravity.

February 8, 2026Open Access

Gravity as an Emergent Buoyancy

Key Points

To provide a model where gravitational acceleration emerges from buoyancy forces due to pressure gradients, avoiding fundamental assumptions about gravity.
Developed a pedagogical framework to describe gravitational phenomena
Modeled matter as saturated continuous substrate with critical saturation density
Assessed the buoyancy force's behavior under geometric assumptions
Demonstrated that buoyancy force results in inverse-square dependence on distance
Newtonian gravitational constant is derived from substrate characteristics rather than assumed as fundamental
Outlined scope, assumptions, and limitations of the emerging model

Abstract

We propose a pedagogical and self-contained effective description in which gravitational acceleration arises as a buoyancy force generated by pressure gradients associated with an expansion-driven substrate. The framework does not assume gravity as a fundamental interaction. Instead, matter is modeled as a local saturation of a continuous substrate, characterized by a critical saturation density. Under minimal and purely geometrical assumptions, we show that the resulting buoyancy force reproduces an inverse-square dependence on distance in the weak-field, static limit. The Newtonian gravitational constant emerges as a derived parameter of the substrate rather than a fundamental constant. The scope, assumptions, and limitations of the model are explicitly discussed.

Gravity as an Emergent Buoyancy

Key Points

Abstract

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