This paper presents a rigorous analytical modelexploring the thermodynamic, kinematic, and spatial mechanicsrequired to neutralize a Kh-47M2 Kinzhal hypersonic weaponsystem using space-based directed energy. Expanding on foun-dational energy principles rooted in classical mechanics anddeterministic fields—continuing the intellectual lineage of Louisde Broglie and Prof. Dr. Ing. Marius Borneas—we derive higher-order kinematic derivatives alongside variable-mass terms. Weestablish the complete coordinate transformation matrices fromEarth-Centered Inertial (ECI) coordinates to a satellite trackingframe, identify precise telemetry latency bounds for an orbitalnetwork operating with a regional C2 hub in Warsaw, Poland,and define the explicit latitude-dependent visibility equationsfor a 216-satellite constellation. Finally, we provide a completesimulation trace of a successful triple-pulse engagement overKharkiv, verifying that the myth of hypersonic invincibility canbe systematically neutralized through calculated structural andthermodynamic disruption.