Covers the basics of DC currents, resistors, capacitors, and superconductors, including historical context and Nobel Prize-winning discoveries.
Explores analog circuits for biochips, emphasizing biosensors and temperature compensation in biochip design.
Explores the inverting operational amplifier configuration and related exercises with resistors.
Explores linear circuits in sinusoidal regime, covering phasors, frequency analysis, and Bode diagrams.
Explores electric fields, energy storage, charge displacement, DC currents, and historical aspects of electricity.
Introduces electricity basics, electronic components, and microcontroller simulation.
Covers the design of high-gain amplifiers using active loads and current mirrors.
Covers the calculation of charges on capacitors and their redistribution in a circuit.
Covers projects on humanoid robotics, financial risk measures, welding industry, converters, capacitors, and thermodynamic cycles.
Covers the simulation of a capacitor and self-heating in a wire using Comsol.
