Shock-driven turbulence refers to the chaotic fluid motion that occurs when a shock wave interacts with a flow, leading to an increase in energy dissipation and instabilities in the fluid. This phenomenon is crucial in understanding how energy is distributed in flows that involve shocks, as it influences the structure and dynamics of the post-shock region, often resulting in significant mixing and changes in thermodynamic properties.
congrats on reading the definition of shock-driven turbulence. now let's actually learn it.