Gravity the vortex engine

Gravity is traditionally modelled as curvature or as a force between masses, yet measured electromagnetic and gravitational fields reveal a persistent toroidal vortex structure surrounding every stable body. This paper presents a mechanical model in which gravity emerges from intake flow within a compressible, frequency‑carrying, permeable medium. In this framework, a body forms a persistent toroidal vortex when the impedance gradient satisfies \(dg/dx < 0\), producing continuous inward acceleration of surrounding medium. The resulting pressure deficit generates gravitational attraction as a direct consequence of vortex intake rather than mass‑based action at a distance. Observational datasets—including geomagnetic maps, solar magnetograms, GRACE/GRAIL gravity harmonics, comet tail dynamics, and plasma toroids—demonstrate the same underlying vortex geometry and medium behaviour across scales. The model reproduces key gravitational phenomena through mechanical flow alone, without invoking curvature or invisible matter. Gravity is therefore interpreted as the measurable intake behaviour of a toroidal vortex operating within a real, compressible substrate. This establishes a unified engine underlying gravitational structure and field propagation. This model incorporates all empirically verified datasets relevant to gravitational behaviour, including electromagnetic field maps, gravity harmonics, orbital dynamics, plasma interactions, and atmospheric flow. The model also employs only mathematically verified formulations—no speculative terms, no untestable parameters, and no non‑mechanical constructs. All predictions arise from the mechanical behaviour of a compressible, permeable, frequency‑carrying medium forming a persistent toroidal vortex