Lectures related to Electric Fields in Conductors

Electric Field of Dipole Moment

Explores the electric field of a dipole moment and the concept of bound charges in a dielectric.

Applications of Gauss's law: Electric Field Calculations Simplified

Simplifies electric field calculations using Gauss's law and symmetry arguments.

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Blended Learning: Electric Fields and Potentials

Explores electric fields, potentials, and Gauss's law with practical examples.

Electric Displacement in Dielectrics: Gauss's Law and Boundary Conditions

Introduces the concept of electric displacement vector D and explores boundary conditions in dielectrics.

Capacitance and Dielectrics

Explores the response of various objects to electric fields, the concept of capacitance, and its applications in technical devices.

Electric Fields and Currents

Explores electric fields, energy storage, charge displacement, DC currents, and historical aspects of electricity.

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Electric Dipole in Fields

Explores electric dipole behavior in fields, alignment, potential energy, dielectric insulators, metallic planes, and field screening.

Gauss's Law: Charges, Electric Flux, and Field Evaluation

Explores Gauss's law, electric flux evaluation, Gaussian surfaces, and field simplification using symmetry arguments.

Electric Charges and Fields

Introduces electrostatics, Coulomb's law, electric fields, and charge behavior in materials.

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Electric Fields Boundary Conditions: Gauss's Law and Displacement Vector

Explores Gauss's law, displacement vector in dielectrics, and symmetry analysis of electric fields.

Electrostatic Energy: Charge Distribution and Dielectrics

Explores electrostatic potential energy, energy density, and dielectrics, with examples of charge distributions and insulating spheres.

Lithium Niobate and Lithium Tantalate

Covers the main facts about Lithium Niobate and Lithium Tantalate, including their properties, crystal growth, and acoustic wave characteristics.

Electric Fields: Conductors and Charges

Explores electric fields in conductors, focusing on charges and field intensity variations based on charge distribution.

Electrostatics: Basis and Applications

Explores Coulomb's law, electric fields, capacitance, conductors, and dielectrics in electrostatic systems.

Electric Field Representation

Introduces electrostatics, focusing on Coulomb's force, electric field representation, superposition principle, and visualization of electric field vectors using field lines.

Electric Fields: Charge Distributions (I)

Covers the calculation of electric fields from continuous charge distributions, emphasizing the superposition principle and integration techniques.