Article Correctness Is Author's Responsibility: Mathematicians develop new theory to explain real-world randomness

(Queen Mary University of London) Brownian motion describes the random movement of particles in fluids, however, this revolutionary model only works when a fluid is static, or at equilibrium. In real-life, fluids often contain particles that move by themselves, which can cause stirring in the fluid, driving it away from equilibrium. Now researchers have presented a novel theory to explain observed particle movements in these dynamic environments.