Dist Babble

 In Temporal Physics mass arises from time flow, with the arrangement of these flows determining how the system behaves. The idea that more complex or massive systems resist changes due to temporal shifts implies that: Inertia is a form of temporal "drag," where the resistance to motion is a result of temporal flow resistance. The more drastic the shifts in time, the more the system behaves as if it has mass, slowing down the rate at which it can transition or interact with other temporal flows. Phase Transitions and Temporal Shifts, discrete certainty of material properties—such as melting points or electrical conductivity—being tied to temporal flow arrangements, suggests that: Different atomic structures exhibit unique temporal configurations. These configurations dictate how the atoms interact with heat, pressure, or other forms of energy. Phase transitions (such as from solid to liquid) would require a certain threshold of energy to rearrange the temporal flows within a ...