This paper presents a mathematical analysis of planetary energy received and emitted across the solar system. Using NASA documented W/m² values and the Adjacent Planet Ratio Method, two independent tables are derived — Received Energy Ratios (Table 1) and Emitted Energy Ratios (Table 2). The totals converge at 49.89% : 50.11% — a near-perfect closed loop balance. The analysis identifies two thermodynamic zones: a Charging Zone (Mercury to Mars) where planets absorb energy at 1.00x, and a Discharging Zone (Saturn to Pluto) where planets emit 1.67x to 2.61x. The Uranus Null Point — where both dipole forces cancel at the system midpoint — is presented as independent proof of the Dark Sun mechanism. Author: Shadab Hasan, B.Tech CSE, Lucknow, India, 2026. Second paper investigates Saturn's internal heat emission ratio using three scenarios — 1.78x (older NASA value), 2.04x (average of NASA measurements), and 1.9898x (mathematically derived perfect balance value). Using the Adjacent Planet Ratio Method, it is shown that Saturn's true emission ratio should be approximately 2.00x for the solar system to operate as a perfectly closed thermodynamic dipole. NASA's two measurements bracket this value. The paper presents full step-by-step calculations, energy data tables, and adjacent ratio comparisons for all three scenarios. Author: Shadab Hasan, B.Tech CSE, Lucknow, India, 2026.
Shadab Hasan (Tue,) studied this question.