Electromagnetics, Optics, Logic Circuits & Electric Circuits
Electromagnetics, Optics, Logic Circuits & Electric Circuits
Published 10/2025
Duration: 67h 28m | .MP4 1920x1080 30 fps(r) | AAC, 44100 Hz, 2ch | 32.5 GB
Genre: eLearning | Language: English
Published 10/2025
Duration: 67h 28m | .MP4 1920x1080 30 fps(r) | AAC, 44100 Hz, 2ch | 32.5 GB
Genre: eLearning | Language: English
Master the Foundations and Advanced Concepts of Integrated Electrical & Optical Systems
What you'll learn
- Understand the principles and applications of electromagnetics and optics, including wave propagation, Maxwell’s equations, and optical systems.
- Analyze and design electric circuits, covering fundamental concepts, circuit laws, and practical techniques.
- Master digital logic circuits, including gates, arithmetic units, state machines, and programmable devices.
- Apply mathematical and physical concepts to solve real-world engineering and physics problems across electrical and optical systems.
Requirements
- Introductory physics or engineering coursework is helpful
- Familiarity with complex numbers and vectors is helpful
Description
Are you ready to build a strong foundation in the essential domains of electrical engineering and applied physics? This comprehensive course brings together four major chapters—Advanced Electromagnetics, Modern Optics, Logic Circuits, and Electric Circuits—into a single, integrated learning experience.
Whether you’re a university student, a professional seeking to refresh your knowledge, or a curious learner, this course will guide you from the basics to advanced topics, with clear explanations and practical examples.
What You’ll Learn
Advanced Electromagnetics
Complex numbers, phasors, and vectors
Orthogonal coordinates and operators
Linear ordinary differential equations
Boundary value problems
Maxwell’s equations and field vectors
Media and boundary conditions
Vector potentials and EM theorems
Plane waves, reflection, transmission, and waveguides
Fiber optic cables and transmission lines
Modern Optics
Ray matrices and lens systems
Inhomogeneous media and aberrations
Plane waves and linear systems
Frequency and spatial domain diffraction
Fourier transforming lenses and imaging
Planar and volume holography
Interferometry and coherence
Optics and relativity
Logic Circuits
Light switch logic and contact circuits
Logic gates, decoders, multiplexers
Arithmetic logic units and programmable logic devices
Latches, flip-flops, counters, and shift registers
State machines, ladder diagrams, and function block diagrams
Electric Circuits
Fundamental concepts and circuit analysis
Sources, Kirchhoff’s laws, resistors, and Ohm’s law
Series and parallel resistors
Voltage and current dividers
Delta-wye transformation
DC node voltage analysis
Course Features
60+ hours of high-quality video lectures
Step-by-step explanations and worked examples
Visualizations and practical demonstrations
Downloadable resources and reference materials
Quizzes and assignments for self-assessment
Lifetime access
Who this course is for:
- Electrical engineering and physics students (undergraduate and graduate)
- Professionals in electronics, photonics, and communications
- Anyone preparing for exams or seeking a deep understanding of these topics
- Self-learners interested in mastering the theory and practice of modern electrical and optical systems
More Info