Understanding Hurricane Prediction
In the Kinetiverse, hurricanes like Tropical Storm Dexter (Invest 95L) are modeled using spatial forces (F=ma) and temporal energy (E=mc), rejecting gravity and spacetime. Spatial forces from pressure gradients and Earth’s axial and orbital motions drive cyclone formation and track, while temporal energy from warm sea surface temperatures and low wind shear governs intensity. Entangled space-time dynamics, with photon path length changes, predict hurricane development, path, and strength, as seen in Dexter’s formation on August 4, 2025.
Key Equations
Fpressure = m · apressure, apressure = -(1/ρ) · (ΔP/Δr)
Where ρ ≈ 1.2 kg/m³, ΔP ≈ 5–10 hPa over Δr ≈ 100 km. Drives cyclonic motion (e.g., apressure ≈ 0.0042–0.0083 m/s²).
Faxial = m · ω² r
Where ω ≈ 7.29 × 10^-5 rad/s, r ≈ 5.52 × 10^6 m. Deflects the track eastward (e.g., aaxial ≈ 0.0294 m/s²).
aorbit ≈ vorbit² / rorbit
Where vorbit ≈ 2.978 × 10^4 m/s, rorbit ≈ 1.496 × 10^11 m. Contributes minor eastward deflection (aorbit ≈ 5.93 × 10^-3 m/s²).
E = m · c, dE/dt ∝ β · apressure
Where c ≈ 3 × 10^8 m/s, β ≈ 0.01–0.05. Drives intensification via SSTs and low shear, as in Dexter’s 35–50 mph winds.