This article explores the intriguing idea that the laws of physics, specifically gravity, might be manifestations of computations performed by a fundamental substrate. The authors delve into the possibility of a universe where information processing is central to understanding gravity and other physical phenomena.
As the author succinctly states, “gravitational attraction is just another optimization mechanism in a computational process that plays a role in reducing the computational power and compressing information.”
As the author succinctly states, “gravitational attraction is just another optimization mechanism in a computational process that plays a role in reducing the computational power and compressing information.”
A new study suggests that the classical world we experience emerges naturally from quantum systems without requiring special conditions, as demonstrated through simulations and the many worlds theory:
- Quantum mechanics reveals a separate realm of tiny particles where particles can exist in multiple states at once, unlike the classical world.
- A new study suggests that the classical world naturally emerges from a wide range of quantum systems, supporting the many worlds interpretation of quantum mechanics.
- The formation of a classical system from quantum events is a natural and unavoidable process, as demonstrated by computer simulations analyzing the evolution of various quantum systems.
- Quantum mechanics reveals a separate realm of tiny particles where particles can exist in multiple states at once, unlike the classical world.
- A new study suggests that the classical world naturally emerges from a wide range of quantum systems, supporting the many worlds interpretation of quantum mechanics.
- The formation of a classical system from quantum events is a natural and unavoidable process, as demonstrated by computer simulations analyzing the evolution of various quantum systems.
