Frame in terms of questions and answers within a johari window, for example: undisputably true facts (known knowns); questionable assumptions or conventional wisdom that may not be true (known knowns); inferences derived from what is known (known unknowns); and outstanding questions for which more information is needed (unknown unknowns) Framing the Findings within a Johari Window Here’s a breakdown of the findings on emergent spacetime from entanglement, framed within a Johari Window: 1. Undisputably True Facts (Known Knowns) - Entanglement is a fundamental phenomenon in quantum mechanics. - General relativity and quantum mechanics are currently incompatible. - Tensor networks are a mathematical tool for representing quantum systems. - The holographic principle suggests that information about a region of space is encoded on its boundary. - The AdS/CFT correspondence relates a theory of gravity to a quantum field theory without gravity. 2. Questionable Assumptions or Conventional Wisdom (Known Knowns) - Spacetime is a smooth, continuous fabric. - Gravity is a fundamental force. - The universe is fundamentally classical in nature. 3. Inferences Derived from What is Known (Known Unknowns) - Entanglement may be the foundation of spacetime. - Gravity may be a function of information density. - The universe may be a holographic projection from a lower-dimensional reality. - Black holes may be connected to distant regions of spacetime through wormholes. 4. Outstanding Questions (Unknown Unknowns) - What is the precise mechanism by which entanglement gives rise to spacetime? - How does the information density determine the strength of gravity? - What are the implications of emergent spacetime for cosmology and black hole physics? - Can we experimentally verify the emergence of spacetime from entanglement? - How does this new understanding of spacetime affect our understanding of the nature of reality?