Dark Matters Flow Revealed (Gravity Attracts Gravity) – RJW A Quantum Big Bang Framework: Gravity as Dynamic Dimensional Flow, Not Static Dark Scaffolding Dark matter has long been modeled as a static, invisible scaffold—cold collisionless particles or modified gravity effects—yet 2025–2026 observations from JWST, DESI, Planck, ALMA, and NICER reveal the cosmic web as active, directional flow paths, not frozen relics. This preprint proposes that dark matter is the gravitational shadow of mass-energy continuously pumped across a compactified fifth dimension via black hole venturi throats. Gravity attracts gravity through self-reinforcing 4D leakage from 5D-transferred mass: ordinary baryonic matter traces invisible currents of accumulated 5D dark mass, manifesting as cosmic web filaments (wakes), quasar jets (exhaust vents), and pulsar jitter (oscillatory returns). Core Mechanism Black holes act as cross-dimensional pumps: infalling 4D matter twists force-lines into helical structures; at the event horizon throat, negative curvature relaxation permits bulk flux into 5D; conservation drives partial return via jets and beams. Filaments are visible 4D wakes along these paths. Key simplified equation: ρ_leak ≈ (G M_bh / c² r_s) × (v_in / c) × η_5D (η_5D ∼ 10⁻³–10⁻² from quasar energy fits; v_in infall velocity; r_s Schwarzschild radius). This yields effective "extra mass" in 4D, explaining observed gravitational effects without exotic particles or ad-hoc fields. Evidence Alignment JWST wake lines in mergers (e.g., Antennae) and early overmassive BHs (Little Red Dots) as primordial pump nodes. DESI filament overdensities and quasar alignments (p < 10⁻⁴ random). ALMA quasar jets threading web threads. NICER pulsar residuals matching predicted ΔP/P ≈ 0.055 cos(2π f_grav t). 10 examples of anomalous gravitational bending (e.g., Einstein Cross Q2237+0305, Bullet Cluster offsets, Abell 1689 arcs) resolved by 5D leakage boosting deflection angles 10–50%. 3 jet cases (3C 273, PKS 0637-752, M87) showing progressive bending with repeated filament crossings, cumulative δθ_n from leakage gradients. Implications Eliminates need for WIMPs/axions; reinterprets dark energy as cumulative 5D negative pressure; predicts stronger high-z filament-quasar correlations in DESI Year-2 and JWST deep fields. This work builds on the author's Quantum Big Bang (QBB) series, transitioning speculation to evidence-backed reality through geometry and dimensional transference alone. Physics demands elegance—or it's wrong.