EE 319Tüm SınavlarEngineering Electromagnetics

Elektromanyetizma, elektrik ve manyetik alanların birbiriyle etkileşimlerini inceleyen temel bir fizik dalıdır.

Bu derste, elektrik yükleri, elektrik alanları, manyetik alanlar ve bunların dinamik ilişkileri üzerinde duracağız. Coulomb yasası, Gauss yasası, Faraday’ın indüksiyon yasası gibi önemli fiziksel prensipleri öğreneceksiniz. Ayrıca Maxwell denklemleri ile elektromanyetik dalgaların oluşumunu ve yayılımını derinlemesine inceleyerek, modern teknolojilerin temelini oluşturan bu kavramların mühendislik uygulamalarını keşfedeceksiniz. Elektromanyetizma, özellikle telekomünikasyon, elektrik makineleri ve kablosuz iletişim gibi alanlarda mühendislik problemlerinin çözümünde kritik rol oynamaktadır.

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Eğitmen

Tarık

Tarık

Konular

Ders Tanıtımı

Understanding Electromagnetism

Ücretsiz

The Electromagnetic Model

Ücretsiz

SI Units and Universal Constants

Summary

Introduction to Vector Analysis

Vector Addition and Subtraction

Vector Addition and Subtraction Example

Vector Multiplication

Vector Multiplication Example-1

Vector Multiplication Example-2

Vector Multiplication Example-3

Vector Multiplication Example-4

Cartesian Coordinates

Cylindrical Coordinates

Cylindrical Coordinates Example-1

Cylindrical Coordinates Example-2

Cylindrical Coordinates Example-3

Cylindrical Coordinates Example-4

Cylindrical Coordinates Example-5

Spherical Coordinates

Spherical Coordinates Example-1

Spherical Coordinates Example-2

Gradient of a Scalar Field

Gradient of a Scalar Field Example-1

Gradient of a Scalar Field Example-2

Gradient of a Scalar Field Example-3

Divergence of a Vector Field

Divergence of a Vector Field Example-1

Divergence of a Vector Field Example-2

Divergence of a Vector Field Example-3

Divergence Theorem

Divergence Theorem Example-1

Divergence Theorem Example-2

Curl of a Vector Field

Stoke's Theorem

Stoke's Theorem Example-1

Stoke's Theorem Example-2

Two Null Identities

Two Null Identities Example

Field Classification and Helmholtz's Theorem

Vector Analysis Review

Summary

Introduction to Static Electric Fields

Fundamental Postulates of Electrostatics in Free Space

Fundamental Postulates of Electrostatics in Free Space Example

Coulomb's Law

Coulomb's Law Example-1

Coulomb's Law Example-2

Coulomb's Law Example-3

Coulomb's Law(Ink-Jet Printers)

Electric Field Due To A System of Discrete Charges

Electric Field Due To A Continuous Distribution of Charges

Electric Field Due To A Continuous Distribution of Charges Example-1

Electric Field Due To A Continuous Distribution of Charges Example-2

Gauss's Law

Gauss's Law Example-1

Gauss's Law Example-2

Gauss's Law Example-3

Gauss's Law Example-4

Electric Potential

Electric Potential Example-1

Electric Potential Example-2

Electric Potential Due To A Charge Distribution

Summary

Material Media in Static Electric Field

Material Media in Static Electric Field Example

Electric Flux Density and Dielectric Constant - 1

Electric Flux Density and Dielectric Constant - 2

Electric Flux Density and Dielectric Constant - 3

Boundary Conditions for Electrostatic Fields

Boundary Conditions for Electrostatic Fields - 2

Boundary Conditions for Electrostatic Fields Example-1

Boundary Conditions for Electrostatic Fields Example-2

Boundary Conditions for Electrostatic Fields Example-3

Capacitances and Capacitors

Capacitances and Capacitors Example-1

Capacitances and Capacitors Example-2

Capacitances and Capacitors Example-3

Capacitances and Capacitors Example-4

Electrostatic Energy and Forces

Electrostatic Energy and Forces Example-1

Electrostatic Energy and Forces Example-2

Electrostatic Energy in Terms of Field Quantities

Electrostatic Forces

Poisson's and Laplace Equations

Poisson's and Laplace Equations Example-1

Poisson's and Laplace Equations Example-2

Summary

Introduction to Steady Electric Currents

Ücretsiz

Current Density and Ohm's Law - 1

Current Density and Ohm's Law - 2

Current Density and Ohm's Law Example

Equation of Continuity and Kirchhoff's Current Law

Power Dissipation and Joule's Law

Governing Equations for Steady Current Density

Governing Equations for Steady Current Density Review

Resistance Calculations

Resistance Calculations Example

Summary

Introduction to Static Magnetic Fields

Fundamental Postulates of Magnetostatics in Free Space

Ücretsiz

Fundamental Postulates of Magnetostatics in Free Space Example-1

Fundamental Postulates of Magnetostatics in Free Space Example-2

Vector Magnetic Potential

The Biot-Savart Law and Applications

The Biot-Savart Law and Applications Example

Magnetization and Equivalent Current Densities

Magnetization and Equivalent Current Densities Example

Behavior of Magnetic Materials

Boundary Conditions for Magnetostatic Fields

Inductances and Inductors

Inductances and Inductors Example

Magnetic Energy

Magnetic Forces and Torques

Magnetic Forces and Torques Example

Direct Current Motors

Forces and Torques in Terms of Stored Magnetic Energy

Chapter Summary

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Conductivity Current

Convection Current

Electrostatic Energy

Capacitance

Ücretsiz

Capacitance I

Dielectric Strength

Electrical Potential

Coulomb's Law

Stokes's Theorem

Curl of Vector Field

Divergence Theorem

Divergence of Vector Field

Gradient of Scalar Field

Ücretsiz

Spherical Coordinate Systems

Transformation of Coordinate System

Distance and Position Vectors

Orthogonal Coordinate Systems

Orthogonal Coordinate Systems I

Introduction to Time Varying Fields and Maxwell's Equations

Ücretsiz

Faraday's Law of Electromagnetic Induction

Faraday’s Induction Law

A Stationary Circuit in a Time-Varying Magnetic Field

Displacement Current

Ampere's Law

Current Density

Maxxwell's Equations

Electromagnetic Boundary Conditions

Electromagnetic boundary conditions

Time Harmonic Fields

Complex Numbers

Complex Numbers

Complex Numbers

Complex Numbers

Phasors

Phasor

Phasor

Phasor

Electromagnetic Spectrum

Introduction

Ücretsiz

Complex Electrical Permittivity

Wave Equations

Propagation Constant, Damping Factor, Phase Constant

Plane EM Wave Propagation in Lossless Media

Real-time Expressions of Fields

EM Wave 1

EM Wave 2

EM Wave 3

EM Wave 4

EM Wave 5

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