Covers the fundamental principles of oscillators, including signal generators, OPAMP RC oscillator circuits, and multivibrators.
Explores forced harmonic oscillators, resonance, initial conditions, and collision conservation principles.
Explores the principles of Inertial and Magnetic Fusion, discussing energy balance, challenges, and progress towards burning plasma.
Explores the performance and operational limits of tokamaks in fusion energy, focusing on critical parameters, constraints, and disruption mitigation.
Explores stellarators as alternatives to tokamaks, discussing 3D magnetic configurations, pros and cons, history, and other confinement concepts.
Introduces Plasma Physics and Fusion Energy, covering energy consumption, fusion reactions, advantages of fusion energy, plasma confinement, challenges in tokamak physics, and the ITER project.
Covers the behavior of electromagnetic waves in non-magnetized plasmas and the simplification of equations for non-collisional plasmas.
Explores the progress in magnetic confinement fusion, roadmaps to fusion power, ITER components, and the path towards DEMO.
