Syllabus Application
MAT 204
Electrical, Optical and Magnetic Properties of Materials
Faculty
Faculty of Engineering and Natural Sciences
Semester
Spring 2025-2026
Course
MAT 204 -
Electrical, Optical and Magnetic Properties of Materials
Time/Place
Time
Week Day
Place
Date
10:40-12:30
Tue
FENS-L062
Feb 16-May 22, 2026
13:40-14:30
Thu
FENS-L056
Feb 16-May 22, 2026
Level of course
Undergraduate
Course Credits
SU Credit:3, ECTS:6, Basic:4, Engineering:2
Prerequisites
NS 101 and MATH 101
Corequisites
MAT 204R
Course Type
Lecture
Instructor(s) Information
Burç Mısırlıoğlu
- Email: burc@sabanciuniv.edu
Course Information
Catalog Course Description
Beginning with Newtonian mechanics and Maxwellian electromagnetics, we examine material properties, by considering electrons as particles and light as waves. In order to understand phenomena that cannot be explained by classical physics, we first develop the tools for understanding the wave-like behavior of electrons and particle- like behavior of light--i.e., quantum mechanics, built around Schrödinger's equation. A quantum chemical approach is applied to understand molecular bond formation and the electrical and optical properties of conductive polymers. To examine electrical and optical properties of metals and insulators, solid state models are developed for bulk solids and interfaces, leading to the fundamentals of semiconductor materials and the p-n junction.
Course Learning Outcomes:
| 1. | Upon successful completion of Electrical, Optical, and Magnetic Properties of Materials, students are expected to Describe a physical model using basic mathematical language?vector calculus, complex functions, partial differential equations |
|---|---|
| 2. | Model the transport processes in a metal and an insulator using Newtonian mechanics and Maxwellian electromagnetics |
| 3. | Model the transport processes in inorganic and organic materials using quantum mechanics |
| 4. | Model light interaction with matter for both bulk matter systems and quantum-confined systems |
Course Objective
To develop a basic understanding of the electronic physical phenomena in materials that is necessary for a materials engineer, who is selecting and designing material structure or performing materials characterization
Sustainable Development Goals (SDGs) Related to This Course:
| Industry, Innovation and Infrastructure |
Course Materials
Resources:
Please check the syllabus document
Technology Requirements:
N/A