Lecture
This lecture covers the concept of transient stability in power systems dynamics, focusing on the algebraic and differential equations, time domain methods, generator models, and numerical integration techniques. The instructor explains the decomposition of self linkage and mutual flux, internal parameters calculation, and the transformation of stator windings into orthogonal windings. Various electrical circuit equations and equivalent circuits are discussed, along with the Newton Raphson iterative method for solving linear systems. The lecture emphasizes the importance of internal parameters and time constants in ensuring transient stability.