Abstract This study examines gravity from the perspective of Holistic Information Theory (HIT) and compares it with modern physical approaches. While classical physics describes gravity as a curvature of space-time and quantum theories have so far been unable to prove the existence of gravitons, HIT understands gravity as a network of information. This network consists of mirrored information, which creates symmetries and stability within space-time, and non-mirrored information, which keeps the network open and connects it to dimension 0 – a timeless reservoir of information that contains all potential possibilities.Gravity can only arise through these non-mirrored information channels. Mirrored information is not directly readable in space-time, which explains why gravity itself is not measurable. Only its effects are measurable: space-time curvature, gravitational waves or light deflection. In GIT, gravity is therefore understood not as a force or energy, but as an open information architecture that connects space-time with dimension 0.This view has remarkable parallels with modern research. Verlinde's theory of entropic gravity describes gravity as an emergent phenomenon arising from information and entropy gradients. The holographic principle suggests that information about a volume is stored on its surface. Van Raamsdonk and Maldacena argue that entanglement networks give rise to space-time itself. More recent work also shows that gravity can be understood as an entropic-emergent quantity in many scenarios.GIT thus provides a coherent explanation for the weakness of gravity compared to other interactions: gravity is not an exchange of force, but an expression of the open information architecture that connects cosmic structures, consciousness and evolution.
Dieter Walter Liedtke (Fri,) studied this question.