1 OXQ: An Introduction

Dynamic symmetry theory: an introduction (4'25")

Benedict Rattigan introduces the concept of symmetry between order and disorder in complex systems. This idea explores how structured patterns and chaotic behaviours interplay across various disciplines. He explains the need to develop a mathematical framework for dynamic symmetry theory, to integrate with established theories, and to explore real-world applications of this concept.

The order-disorder continuum in phase transitions (8'51")

This podcast explores the concept of dynamic symmetry between order and disorder in complex systems. It examines how randomness and structure interplay in various domains, from evolution and quantum physics to financial markets and social phenomena. Rattigan argues that understanding these transitions can provide valuable insights and predictive tools for navigating complex systems in nature and society.

The dynamics of traffic dis/order (10'40")

This talk explores the parallels between traffic flow dynamics and fundamental physics concepts. It examines how traffic systems exhibit properties aligning with both quantum mechanics and general relativity, offering insights into the order-disorder balance in complex systems. Rattigan suggests that studying traffic flow could provide a macroscopic model for reconciling seemingly incompatible frameworks in physics.

The arrow of time: a balance of entropy and order (19'00")

This podcast explores the concept of dynamic symmetry in relation to the arrow of time and entropy. It challenges the traditional view of time's progression from order to disorder, proposing instead a nuanced interplay between stability and instability in complex systems. The talk examines how this perspective applies to various fields, including thermodynamics, cosmology, and information theory, offering insights into the emergence of order from chaos and the nature of time itself.