Concept

Electromotive force

Related lectures (29)

Maxwell's Equations and Induction Phenomenon

Explores Maxwell's equations, induction in moving conductors, electromotive force, and electrical fields.

Power in Circuits: Emf and Internal Resistance

Explores power in DC circuits, emf, internal resistance, and power delivery.

Electromotive Force and Power Transfer

Explores electromotive force, power dissipation, and optimization in circuits and devices.

Electrochemistry: Basics and Galvanic Cells

Introduces electrochemistry basics, redox reactions, and galvanic cells, emphasizing the conversion of chemical energy into electrical energy.

Electrodynamics: Coupling and Maxwell's Equations

Explores the coupling between electric and magnetic fields and Maxwell's equations in electrodynamics.

Electrochemical Cells: Redox Reactions and Standard Potentials

Explores electrochemical cells, redox reactions, and standard potentials in depth.

Current and Conservation of Charges: Moving Charges

Covers currents from moving charges, Ohm's law, Kirchhoff's laws, and charge conservation in circuits.

Electrochemistry: Redox Reactions

Explores electrochemistry principles, redox reactions, standard potential, and electrolysis applications.

Electrochemistry: Redox Reactions and Cell Potentials

Covers redox reactions, cell potentials, and electrochemical cells in electrochemistry.

Kirchhoff's Laws and DC Circuits

Explores Kirchhoff's laws in DC circuits, resistor analysis, and capacitor behavior.

Current and Charge Movement

Explores the historical context of electric power distribution and fundamental concepts of currents and circuits.

Drude Model & DC Circuits: Conductivities, Ohm's Law, EMF

Covers the Drude model for electrical conductivities and introduces DC circuits.

Electric Circuits: DC Circuits

Explores DC electric circuits, emphasizing power distribution and efficiency through examples and measurements with ammeters and voltmeters.

Generators of Electromotive Force and Network Analysis

Discusses generators of electromotive force, circuits for power transfer, and network analysis with resistors.

Thermodynamics: Lithium Battery

Explores the thermodynamics of lithium batteries, emphasizing the determination of reaction free enthalpy and entropy.

DC Circuits and Kirchhoff's Laws

Explores electromotive force, Kirchhoff's laws, and consistent current-flow directions in DC circuits.

Electromotive Force and Magnetic Fields

Explores electromotive force induced by magnetic fields and the interaction of electric and magnetic fields.

Galvanic Cells: Standard Potentials and Concentration Effects

Explores galvanic cells, standard potentials, concentration effects, equilibrium constants, and pH meters in concentration cells.

Inductive Sensors: DC Magnetic Field Blood Flow Meter

Explores inductive sensors for blood flow measurement using a DC magnetic field meter and discusses the drawbacks of constant magnetic fields in flow meters.

Inductance Mutuelle: Faraday's Law and Lenz's Law

Covers mutual inductance, Faraday's law, Lenz's law, transformers, generators, and eddy currents.