This article identifies separate energy channels, with a focus on the Coriolis force energy channel as their integrator. The author demonstrates that the total kinetic energy of a launched satellite in the unsteady state results from the geometric sum of momentum and angular momentum, as two vectorial and orthogonal kinetic energy carriers coupled together in spacetime by a dynamic phase. This phase results from energy transfer through the Coriolis effect energy channel, which mixes the components without introducing additional energy. The article identifies a scientific interpretation gap and proposes a new, enriched perspective in the field of cosmology.Two main energy components were distinguished: u2022 ΩA — (active) identified with linear momentum (translational energy opposing the gravitational force) integrated along the ascension radius, ultimately converted into the satellite's potential energy with a mass of m. u2022 ΩR — (reactive) identified with angular momentum (rotational energy equivalent to the opposing Coriolis force) force projected onto the tangent to the ascent spiral, then integrated along the spiral, finally transformed into rotational orbital energy (encoded into the angular momentum of the mass m ). Each of them is a power integral associated with the orthogonal motion components (radial and tangential). In standard orbital mechanics, angular momentum energy is implicitly included in the orbital kinetic energy along the ascent spiral, but it is not treated as an independent, orthogonal component in the energy balance in the dynamicascent state.