This study proposes a theoretical framework that provides a unified interpretation of temperature, pressure, magnetic fields, electric fields, fluid behavior, and rotational phenomena based on a single fundamental pressure principle. Absolute temperature 0 K is redefined not as a state in which energy is extinguished, but as a reference contraction state in which degrees of freedom—such as electronic, molecular, and rotational motions—are extremely suppressed. On this basis, Thermal Contraction Pressure is introduced as the underlying origin of all pressure phenomena. Within this framework, temperature is not treated as the direct cause of pressure, but as a state variable indicating the phase through which contraction pressure is realized, including rotational, wave-like, and horizontal-gradient phases. Magnetic pressure is interpreted as contraction pressure manifested through the rotational phase of electronic resonance, whereas electric and atmospheric pressures are understood as particle-level pressure responses expressed as density gradients. Accordingly, the rotation of galaxies and planets, tropical cyclones and convective vortices, wave structures in nuclear explosions, electromagnetic phenomena, and changes in material states are not regarded as outcomes of distinct forces, but as observations of a single pressure principle manifested through different phases under varying conditions. Rather than replacing established physical laws, this study offers a higher-level interpretive framework that explains the structural origins of the recurrent rotational, gradient, and wave patterns observed throughout natural phenomena.
DEOKHO JEON (Wed,) studied this question.