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Applied Physics For Engineering Iii: Modern Physics - AD-TEAM - 04-06-2025
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Applied Physics For Engineering Iii: Modern Physics
Published 3/2025
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 2.07 GB | Duration: 4h 48m
Modern Physics for Engineering: Electromagnetism, Quantum Mechanics, and Relativity in Technology
What you'll learn
Understand Maxwell's equations in electromagnetic systems and their engineering applications
Explain the principles of special relativity and their implications for modern technology and high-speed systems.
Analyze quantum mechanical concepts and their relevance to advanced materials and nanoscale engineering.
Examine the principles of relativity and their practical applications in technology, such as GPS systems and high-energy particle accelerators.
Requirements
B.S or graduate students, Mechanical engineering, Manufacturing Engineering, Aerospace Engineering, Electronics Engineering, Physics, Technicians with industry experience.
Description
This course explores the fundamental principles of modern physics and their direct applications in engineering and technology. Divided into four modules, it provides a foundational understanding of electromagnetism, relativity, quantum mechanics, and their role in cutting edge innovations.The first module focuses on electromagnetism, beginning with Maxwell's equations, which describe the behavior of electric and magnetic fields. Students will explore electromagnetic waves, their properties, and practical applications, including electric motors, inductive charging, etc.The second module covers relativity, starting with Einstein's postulates and the Lorentz transformations. Topics such as time dilation, length contraction, relativistic energy, and the curvature of spacetime will be examined, highlighting their relevance in technologies like GPS and particle accelerators.The third module introduces quantum mechanics, discussing foundational concepts such as wave-particle duality, the Schrödinger equation, quantum superposition, and tunneling effects. These principles are key to understanding nanoscale systems, quantum computing, and advanced materials like superconductors.The final module connects these concepts to real world applications, exploring how modern physics enables advancements in communication, material science, and energy systems. Topics include photonics in data transmission, graphene and superconductors in electronics, and nuclear physics in energy production and medical imaging.By the end of this course, students will develop a strong theoretical foundation in modern physics while gaining insight into its technological implications. Through a case study, they will learn to analyze and apply these principles to real world engineering challenges.
Overview
Section 1: Introduction
Lecture 1 Introduction
Lecture 2 Course Structure & Syllabus
Lecture 3 Specialization Options
Section 2: Electromagnetism and Optics in Engineering
Lecture 4 Introduction to Maxwell's Equations
Lecture 5 Gauss's Law for Electricity
Lecture 6 Gauss's Law for Magnetism
Lecture 7 Faraday's Law of Induction
Lecture 8 Ampère's Law with Maxwell's Correction
Lecture 9 Electromagnetic Waves and Their Properties
Lecture 10 Fundamentals of Optics: Reflection, Refraction, and Diffraction
Lecture 11 Optical Devices and Engineering Applications
Lecture 12 Maxwell's equations Exercise
Section 3: Relativity and Its Engineering Implications
Lecture 13 Foundations of Special Relativity: Postulates and Transformations
Lecture 14 Time Dilation and Length Contraction
Lecture 15 Relativistic Energy and Momentum in High-Speed Applications
Lecture 16 General Relativity: Gravity as Spacetime Curvature
Section 4: Quantum Mechanics for Engineering and Technology
Lecture 17 Introduction to Quantum Mechanics: Wave-Particle Duality and Uncertainty
Lecture 18 Schrödinger's Equation and Its Physical Interpretations
Lecture 19 Quantum States and Superposition in Nanoscale Systems
Lecture 20 Quantum Tunneling and Its Engineering Applications
Section 5: Practical Applications of Modern Physics
Lecture 21 Applications of Electromagnetism in Engineering: Examining electric motors and i
Lecture 22 Optical Technologies: Utilizing principles of reflection and refraction in fiber
Lecture 23 Relativity in Modern Technologies: Understanding time dilation in GPS technology
Lecture 24 Quantum Mechanics in Material Science: Investigating superconductors and graphen
Section 6: Closing
Lecture 25 Closing
Engineers, senior or grad students. Entrepreneurs and Innovators, designers, manufacturing professionals (with our without a college degree). Overall, Professionals Seeking Career Growth
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