EEE 2105 | JUST 2023

Archived: April 24, 2024

Course Code: EEE 2105

Course Title: Electrical Engineering Materials

Year: 2^nd Semester: 1^st

Year: 2^nd

Semester: 1^st

Academic Year: 2022-2023

Credit: 03

All students attending the course for credit must fill the online check-in form (availabe here) with a pseudonym which will be used in posting their coursework and class test results. No coursework or class test result will be published without a pseudonym. To fill the check-in form stduents will need to log in using their instutional email.

Course Convenor

Dr. Mohammad Abdur Rashid
Room # 520
Bangabandhu Sheikh Mujib Academic Building
Email: rashid@just.edu.bd

Lecture Schedule

Day	Time	Room Number
Sunday	11:10 - 11:50	102
Monday	11:10 - 11:50
Tuesday	09:30 - 10:10
Wednesday	09:30 - 10:10

Lecture Slides/Notes

QMLN01: The Schrödinger equation [Notes 128 KB]
QMLN02: Time evolution of normalized wave function [Notes 124 KB]
QMLN03: Hermitian operator [Notes 128 KB]
QMLN04: Expectation values of operators [Notes 148 KB]
The wave function [Slides 2.5 MB]
Time evolution of wave function [Slides 1 MB]
Infinite square-well potential [Slides 1.8 MB]
Commutator of two operators [Slides 1.1 MB]
Hermiticity of operators in Quantum Mechanics [Slides 2.6 MB]
Potential step and potential barrier [Slides 2.2 MB]
Elementary materials science concepts [Slides 3.2 MB]

Videos on Quantum Mechanics

QM01: Properties of Wave Function [Video 11 min] [Slides 524 KB]
QM02: Examples of Wave Function [Video 9.5 min] [Slides 639 KB]
QM03: Uncertainty Principle [Video 11 min] [Slides 573 KB]
QM04: Schrödinger Equation and Operator in Quantum Mechanics [Video 14 min] [Slides 2.2 MB]
QM05: Postulates of Quantum Mechanics [Video 12.5 min] [Slides 766 kB]
QM06: Particle in a One Dimensional Box (Infinite Square-Well Potential) [Video 15 min] [Slides 678 KB]
QM07: Normalization of Wave Function (Particle in a Box in 1D) [Video 12 min] [Slides 1 MB]
QM10: Time evolution of wave function [Video 10 min] [Slides 956 KB]
QM11: Hermiticity of operators in Quantum Mechanics [Video 17 min] [Slides 1.2 MB]
QM12: Examples of Hermitian operator [Video 6 min] [Slides 844 KB]
QM13: Time dependence of expectation values [Video 7.5 min] [Slides 864 KB]

Related Resources

Lectures on Solid State Physics: Sandro Scandolo (ICTP, Italy) [Playlist]
Hall effect & Hall voltage: Dr. Rashid [Video 11.5 min] [Slides 1.4 MB]
Hall Effect — Sixty Symbols [Video 6 min]
Single-electron model, Fermi gas, density of states: Dr. Rashid [Video 63 min] [Slides 1.3 MB]
Fermi surface, Fermi energy, Fermi-Dirac distribution: Dr. Rashid [Video 74.5 min]
Bloch's theorem in one dimension: Dr. Rashid [Video 70.5 min] [Slides 2.2 MB]
Implication of Bloch's theorem, Kronig-Penney model: Dr. Rashid [Video 47.5 min]
Difference between B and H in magnetism — Understand physics [Video 10 min]

Class Recordings

Dielectric Materials and Insulation [Video 43 min]
Dielectric Loss (part 1) [Video 18 min]
Dielectric Loss (part 2) [Video 9 min]
Dielectric Loss (part 3) [Video 6 min]
Magnetic Properties [Video 22.5 min]
Magnetic Materials [Video 34.5 min]
Superconductivity [Video 24 min]

Quizes/Assignment

Archived: April 24, 2024

References

Quantum Mechanics – Nouredine Zettili
Quantum Mechanics – B.H. Bransden & C.J. Joachain
Principles of electronic materials and devices – S. O. Kasap
Introduction to Solid State Physics – Charles Kittel
Condensed Matter Physics – Michael P. Marder
Superconductivity: Basics and Applications to Magnets – R.G. Sharma