This study investigates the spiral radiation structure generated by the rotating Sun and its influence on the dynamics of Earth's energy pathways. By examining the rotational behavior and spatial distribution of solar emissions, a model is proposed in which Earth's energy flow deviates from linearity and instead follows a spiral trajectory. This framework introduces a novel perspective on gravitational interaction, energy transfer, and planetary motion, suggesting that Earth's energetic alignment is governed by the Sun's rotational radiation field. Furthermore, while conventional gravitational models assume that falling objects on Earth follow straight-line paths under a static gravitational field, this work proposes that Earth's rotation induces subtle curvature in these paths, resulting in imperceptible spiral trajectories. Although this spiral motion is not directly observable, it arises from the interaction between Earth's rotation and the gravitational field, implying that even local gravitational phenomena are embedded within a broader rotational structure. This insight reinforces the overarching model in which planetary energy pathways are shaped by spiral dynamics originating from the Sun’s rotational influence.
Kim Min Gyu (Tue,) studied this question.