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Course Title	Code	Semester	Laboratory+Practice (Hour)	Pool	Type	ECTS
Materials Science - 1	ECS107	FALL	2+0		C	2

Learning Outcomes	1-Defines the structure of the atom using atomic models. 2-Calculate the theoretical density of crystalline materials by using the crystal structure information. 3-Interprets crystal directions, planes, and spacing between planes. 4-Summarize types of crystal defects and the effect of crystal defects on material properties.

Prerequisites	-
Language of Instruction	Turkish
Responsible	Assoc. Dr. Olcay GENÇYILMAZ
Instructors	-
Assistants	-
Resources	K1-Smith, W.F. (1996). Material Science and Engineering. McGraw-Hill Inc., Orlando.
Supplementary Book	1. The Structure of Metals and Alloys, , 1936. 2. Materials Science and Engineering: An Introduction, , 2010. 3. Elements of X-Ray Diffraction, , 1956. 4. Material Science and Enginnering Materials - Donald R. Askeland
Goals	To introduce interatomic bonds, crystal structures and symmetry operators to students and to develop skills of solving materials problems by using properties of crystal structures.
Content	Electron structure of atoms, chemical bonds, crystal structures, planes and directions, linear and planar densities, symmetry operators, derivative crystal structures, formation of x-rays, Bragg`s law, crystal defects, electrical and magnetic properties.

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