Solid State Physics
Solid State Physics
Published 1/2025
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.99 GB | Duration: 2h 15m
Published 1/2025
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.99 GB | Duration: 2h 15m
Properties of Solids, Classification of Solids, Crystal Structures, Superconductivity
What you'll learn
Understand the classification, properties, and behavior of different types of solids:
Master crystal structures and their role in material properties:
Explore advanced concepts like band theory, semiconductors, and superconductivity:
Examine defects in solids and their impact on material performance and applications:
Requirements
This course is perfect for beginners eager to learn the basics of solid-state physics and how it connects to real-world applications. No prior specialized knowledge is required, making it an excellent starting point for anyone interested in the subject.
Description
Dive into the fascinating world of solid-state physics, where the behavior of materials at the atomic level reveals the secrets behind modern technology. This course offers a systematic exploration of solids, focusing on their properties, structures, and applications in cutting-edge innovations.We begin with a fundamental classification of solids and their unique properties before exploring the intricate crystal structures that define material behavior. Gain insights into the mechanical properties of solids, including elasticity and deformation, followed by a detailed understanding of band theory and semiconductors, the cornerstone of modern electronics.Learn how phonons and thermal properties influence heat transfer in materials and uncover the principles governing electrical properties, from conductivity to resistance. Explore the fascinating realm of magnetic properties and their applications, and demystify superconductivity, where materials exhibit zero electrical resistance.Additionally, discover the significance of defects in solids and how imperfections shape material behavior. The course concludes by connecting theory to practice through real-world applications, from microchips and LEDs to advanced medical devices.Key Features:A detailed study of atomic arrangements and their impact on material properties.Practical insights into technologies such as semiconductors, superconductors, and magnetic devices.Real-world applications in electronics, energy, and medical technologies.Whether you're a student, educator, or industry professional, this course equips you with a deeper understanding of the principles and applications of solid-state physics.
Overview
Section 1: Introduction to Solid State Physics
Lecture 1 Introduction to Solid State Physics
Section 2: Crystal Structures of Solids
Lecture 2 Crystal Structures of Solids
Section 3: Mechanical Properties of Solids
Lecture 3 Mechanical Properties of Solids
Section 4: MCQs for Intro to Solid State Physics
Lecture 4 MCQs for Intro to Solid State Physics
Section 5: MCQs for Crystal Structure
Lecture 5 MCQs for Crystal Structure
Section 6: MCQs for Mechanical Properties of Solid State Physics
Lecture 6 MCQs for Mechanical Properties of Solid State Physics
This course is designed for anyone interested in exploring the fascinating world of solid-state physics, from beginners to advanced learners.