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Lecture
Electrical Stimulation: Mechanisms and Applications
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Related lectures (30)
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Kirchhoff's Laws and DC Circuits
Explores Kirchhoff's laws in DC circuits, resistor analysis, and capacitor behavior.
Electrical Circuits Basics
Introduces the basics of electrical circuits, covering elements, laws, Ohm's law, and series/parallel connections.
Basic Concepts: Electric Circuits
Introduces the fundamental concepts of electric circuits, including basic elements and Kirchhoff's laws.
Charging Capacitors: Time-Dependent Current and Circuits Analysis
Delves into charging capacitors, analyzing circuits with time-dependent current and exploring parallel and series configurations.
Direct Current Circuits: Kirchhoff's Laws and Resistors
Covers DC currents, resistors, capacitors, Kirchhoff's laws, and electromotive force in electric circuits.
Introduction to LEM and Equivalent Circuits
Covers the Lumped Element Model, 'lumping' systems, equivalent circuits, and domain conversion.
Electrical Neural Stimulation: Fundamentals & Applications
Covers the fundamentals of electrical neural stimulation, electrode-tissue interface, charge balancing, tissue damage, and safe stimulation levels.
Electric Circuits: Analysis and Applications
Covers the analysis of electric circuits using Kirchhoff's laws and Ohm's law to determine currents, voltages, and power.
Continuous Circuits: Fundamentals
Covers the fundamentals of continuous circuits, including physical quantities, conductors, semiconductors, open and closed circuits, and electric power.
Mechanical Resonator in QUCS
Covers using QUCS to solve simple harmonic oscillators and analyze mechanical resonators.
