Solid State Physics Introduction
[center]
Published 7/2024 MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz Language: English | Size: 1017.51 MB | Duration: 2h 0m
2 hour crash course
What you'll learn
Gain familiarity with key concepts on Solid State Physics.
Understand different models used for solids.
Explain why different materials behave in different ways.
Begin to be able to understand research papers.
Requirements
Familiarity with cross and dot products of vectors and comfort with first-year university maths. Understanding of basic quantum mechanics.
Description
This is an introductory course on solid state physics aimed at those studying physics at university and want to get a head-start before studying this topic on their course. Anyone else who wants to do this course is absolutely welcome too!!!The course assumes you have some knowledeg of university maths, although you do not need maths to follow the key concepts. Understanding basic quantum mechanics, dot and cross-products and matrices will help a lot. I have tried to focus on absolute essentials so you can be the most bang for your buck with this course.This course covers topics of crystal structure, reciprocal space including Bragg Diffraction, Free and Nearly-free electron models, lattice vibrations (phonons) and semiconductors...so lots to unpack in 2 hours.I have short quizzes after every topic and practice questions with full solutions to ensure you have an understanding as you go along too! Feel free to do them as you go along whilst the content is fresh or to wait till the end to view them as an end of topic test - the choice is yours.Happy learning and feel free to contact me with any questions or mistakes you find that I can clarify or change if possible :)
Overview
Section 1: Introduction
Lecture 1 Introduction
Section 2: Crystal Structure
Lecture 2 Crystal Structure
Lecture 3 Crystal Structure Questions
Lecture 4 Crystal Structure Answers
Section 3: Reciprocal Space
Lecture 5 Reciprocal Space
Lecture 6 Reciprocal Space Questions
Lecture 7 Reciprocal Space Answers
Section 4: Free Electron Model
Lecture 8 Free Electron Model
Lecture 9 Free Electron Model Questions
Lecture 10 Free Electron Model Answers
Section 5: Nearly Free Electron Model
Lecture 11 Nearly Free Electron Model and Bands
Lecture 12 Nearly Free Electron Model and Bands Questions
Lecture 13 Nearly Free Electron Model and Bands Answers
Section 6: Phonons
Lecture 14 Phonons
Lecture 15 Phonons Questions
Lecture 16 Phonons Answers
Section 7: Semiconductors
Lecture 17 Semiconductors
Lecture 18 Semiconductors Questions
Lecture 19 Semiconductors Answers
University physics students are anyone wanting a 2-hour crash course on Solid State physics before taking a course in the topic at university
without You and Your Support We Can't Continue
Thanks for Buying Premium From My Links for Support
Click >>here & Visit My Blog Daily for More Udemy Tutorial. If You Need Update or Links Dead Don't Wait Just Pm Me or Leave Comment at This Post
[/center]
Published 7/2024 MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz Language: English | Size: 1017.51 MB | Duration: 2h 0m
2 hour crash course
What you'll learn
Gain familiarity with key concepts on Solid State Physics.
Understand different models used for solids.
Explain why different materials behave in different ways.
Begin to be able to understand research papers.
Requirements
Familiarity with cross and dot products of vectors and comfort with first-year university maths. Understanding of basic quantum mechanics.
Description
This is an introductory course on solid state physics aimed at those studying physics at university and want to get a head-start before studying this topic on their course. Anyone else who wants to do this course is absolutely welcome too!!!The course assumes you have some knowledeg of university maths, although you do not need maths to follow the key concepts. Understanding basic quantum mechanics, dot and cross-products and matrices will help a lot. I have tried to focus on absolute essentials so you can be the most bang for your buck with this course.This course covers topics of crystal structure, reciprocal space including Bragg Diffraction, Free and Nearly-free electron models, lattice vibrations (phonons) and semiconductors...so lots to unpack in 2 hours.I have short quizzes after every topic and practice questions with full solutions to ensure you have an understanding as you go along too! Feel free to do them as you go along whilst the content is fresh or to wait till the end to view them as an end of topic test - the choice is yours.Happy learning and feel free to contact me with any questions or mistakes you find that I can clarify or change if possible :)
Overview
Section 1: Introduction
Lecture 1 Introduction
Section 2: Crystal Structure
Lecture 2 Crystal Structure
Lecture 3 Crystal Structure Questions
Lecture 4 Crystal Structure Answers
Section 3: Reciprocal Space
Lecture 5 Reciprocal Space
Lecture 6 Reciprocal Space Questions
Lecture 7 Reciprocal Space Answers
Section 4: Free Electron Model
Lecture 8 Free Electron Model
Lecture 9 Free Electron Model Questions
Lecture 10 Free Electron Model Answers
Section 5: Nearly Free Electron Model
Lecture 11 Nearly Free Electron Model and Bands
Lecture 12 Nearly Free Electron Model and Bands Questions
Lecture 13 Nearly Free Electron Model and Bands Answers
Section 6: Phonons
Lecture 14 Phonons
Lecture 15 Phonons Questions
Lecture 16 Phonons Answers
Section 7: Semiconductors
Lecture 17 Semiconductors
Lecture 18 Semiconductors Questions
Lecture 19 Semiconductors Answers
University physics students are anyone wanting a 2-hour crash course on Solid State physics before taking a course in the topic at university
without You and Your Support We Can't Continue
Thanks for Buying Premium From My Links for Support
Click >>here & Visit My Blog Daily for More Udemy Tutorial. If You Need Update or Links Dead Don't Wait Just Pm Me or Leave Comment at This Post
[/center]
Download
RapidGator
FileStore
NitroFlare
RapidGator
FileStore
NitroFlare
Related eBooks & eLearning
Stefanucci G Quantum Mechanics for Material
eBooks
June - 11/24
Stefanucci G Quantum Mechanics for Material Science An Introduction 2024 | 5.3 MB 241 Pages Title: Quantum Mechanics for Material Science Author: Gianluca Stefanucci
Principles of Mechanics: Fundamental University
eBooks
June - 27/24
pdf | 159.03 MB | English | Isbn:9783030151959 | Author: Salma Alrasheed | Year: 2019
Luscombe J Non-Equilibrium Statistical Mechanics
eBooks
July - 10/24
Luscombe J Non-Equilibrium Statistical Mechanics 2024 | 5.17 MB 257 Pages Title: Non-Equilibrium Statistical Mechanics Author: James H. Luscombe
Kay A Escape From Shadow Physics 2024
eBooks
June - 22/24
Kay A Escape From Shadow Physics 2024 | 38.95 MB 595 Pages Title: Escape from Shadow Physics Author: Adam Forrest Kay
Quantum Mechanics for Material Science: An
eBooks
June - 13/24
pdf | 12.23 MB | English | Isbn:9783031601712 | Author: Gianluca Stefanucci | Year: 2024
Introduction To Quantum Computing And Computer
eLearning
June - 10/24
Published 6/2024 MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch Language: English | Duration: 1h 37m | Size: 923 MB
Bootcamp to Relativistic Quantum Mechanics
eLearning
July - 03/24
Bootcamp to Relativistic Quantum Mechanics Published 7/2024 Duration: 3h50m | .MP4 1280x720, 30 fps(r) | AAC, 44100 Hz, 2ch | 1.17 GB Genre: eLearning | Language: English
Martins E Essentials of Semiconductor Device
eBooks
June - 09/24
Martins E Essentials of Semiconductor Device Physics 2022 | 8.28 MB 237 Pages Title: Essentials of Semiconductor Device Physics Author: Emiliano R. Martins