Course Information Semester Course Code Course Title T+P+L Credit ECTS 2 05120204 Material Science for Electrical and Electronics Engineering 3+0+0 3 4 Course Details Language : Turkish Level : Bachelor's Degree Department / Program : Electrical and Electronics Engineering Mode of Delivery : Face to Face Type : Compulsory Objectives : In this course, the aim is to gain knowledge about the atomic structure, interatomic bonds, crystal and amorphous structures, such as materials and electrical, mechanical, physical properties of the properties of materials. Content : Mechanical behavior of materials, Physical properties of materials, Internal structure of materials, Crystal structure, Crystal defects, Amorphous structure, Strengthening names in metals, Constitutive equations of materials, Electrical properties, Electrical conductivity, Semiconductors, Electrical property problems, Dielectric properties and Magnetic properties Methods & Techniques : Prerequisites and co-requisities : None Course Coordinator : Associate Prof.Dr. Hulusi AÇIKGÖZ Name of Lecturers : Asist Prof. Abdülkadir ÖZCAN Assistants : None Work Placement(s) : No Recommended or Required Reading Resources : William F. Smith, Principles of Materials Science and Engineering, McGraw-Hill International Editions. Course Category Engineering 50% Engineering Design 50% In-Term Study Informations In-Term Studies Quantity Percentage Mid-terms 1 30% Attendance 14 10% Final examination 1 50% Total 16 90% Activity Informations Activities Quantity Duration Total Work Load Course Duration 14 3 42 Hours for off-the-c.r.stud 14 3 42 Mid-terms 1 20 20 Final examination 1 25 25 Total Work Load ECTS: 4 129 Course Learning Outcomes Upon the successful completion of this course, students will be able to: No Learning Outcomes 1 Know the characteristics of electronic components 2 Know the dielectric materials knowledge Weekly Detailed Course Contents Week Topics 1 Introduction to wave and particle duality 2 Introduction to wave and particle duality 3 The Shrödinger Equation and Solution for H atom 4 The Shrödinger Equation and Solution for H atom 5 Energy Bands in Crystals 6 Behavior of electrons in crystals 7 Electrical Conduction in Metals and Alloys 8 Semiconductors 9 Electrical properties of dielectric, amorphous, ceramics and polymers 10 Optical properties of materials 11 Classical and quantum explanations of optical properties of materials 12 Classical and quantum explanations of optical properties of materials 13 Magnetic properties of materials 14 Applications of materials Contribution of Learning Outcomes to Programme Outcomes P1P2P3P4P5P6P7P8P9P10P11 All 55 C1 555 C2 555 bbb
