Explores enzymes' catalytic power, specificity, and classification based on reaction type, as well as the relationship between equilibrium constants and free energy changes.
Covers enzyme structure, function, and classification in environmental microbiology, highlighting their catalytic roles and significance in biochemical processes.
Explores chemical equilibrium principles, including Le Châtelier's Principle and equilibrium constants, and discusses the influence of temperature, pressure, and concentration on equilibrium shifts.
Explores water quality modeling, focusing on reaction kinetics, equilibrium constants, and temperature effects, with practical examples of calcite precipitation and iron oxidation.
Explores the predictive power of modelling reaction kinetics at low computational cost, emphasizing the importance of accurate models and efficient approximations.
Covers the modeling of kinetics in water quality using PHREEQC software, emphasizing the comparison of reaction time scales and the syntax of KINETICS and RATES keywords.
