Course Information
Course Title Code Semester T + P ECTS
Ore Deposits-I JEL305 5 2 + 0 2

Prerequisites None

Language Turkish
Level Bachelor's Degree
Type Compulsory
Coordinator Ore Deposits and Geochemistry Department
Instructors Assist.Prof. İBRAHİM BUZKAN
Goals As a result of this course, students have an idea about the conditions of ore formation and targeted media.
Contents History; mineral deposits investigation methods, classification of mineral deposits, internal origin pegmatitic beds beds; pneumatolitic rocks; Pirometasomatik beds, hydrothermal deposits, carbonatites, and on the beds Nepheline syenite.
Work Placement(s) Absent

Number Learning Outcomes
1 Identify minerals mineral deposits that may
2 Known ore deposits of mineral paragenesis

Mode of Delivery Face-to-Face
Planned Learning Activities & Teaching Methods Face to face
Assessment Methods Mid-term exam and a final exam



Course Content
Week Topics Study Materials
1 Introduction and definitions None
2 Classification of ore deposits None
3 Rock deposition and relationships None
4 Ore textures and structures None
5 Mineral deposits, geochemical and physicochemical concepts None
6 Oxidation and cementation beds None
7 Layered beds of sedimentary rocks None
8 Lead and zinc deposits None
9 Mid-term exam
10 Coal-fired and oil shale beds in or argillic None
11 Clastic sediments beds None
12 On the beds of granitic rocks None
13 pegmatitic beds None
14 General review



Sources
Textbook Buzkan, İ.,2006, Maden Yatakları Ders Notu.
Additional Resources Gümüş, Altan. 1979; Metalik Maden Yatakları, İstanbul.



Assessment System Quantity Percentage
In-Term Studies
Mid-terms 1 40
In-Term Total 1 40
Contribution of In-Term Studies to Overall 40
Contribution of Final Exam to Overall 60
Total 100





Course's Contribution to PLO
No Key Learning Outcomes Level
1 2 3 4 5
1 Has the sufficient background on mathematics, science and engineering in his own branch. x
2 Makes use of conceptual and applied knowledge in mathematics, science and in his own area in accordance for engineering solutions. x
3 Determines, defines, formulates and solves problems in engineering; fort his aim selects and applies the appropriate analytical models and modeling techniques. x
4 Analyses a system, system component or process and in order to meet the requirements, designs under realistic conditions; thus applies modern techniques of design. x
5 Selects and uses modern techniques and devices necessary for engineering applications. x
6 Designs and carries out experiments, collects data, analyzes and comments on the findings. x
7 Works effectively and individually on multi disciplinary teams. x
8 Accesses knowledge, and to do this, does research, uses databases and other data sources. x
9 Is aware of the importance of lifelong learning; follows advances in science and technology and updates his knowledge continuously. x
10 Uses communication and information technology at least at advanced level of European Computer Driving License. x
11 Communicates effectively both orally and in writing; uses a foreign language at least at B1 level of European Language Portfolio. x
12 Communicates using technical drawing. x
13 Is aware of the universal and social effects of engineering solutions and applications; is aware of entrepreneurship and innovativeness and is knowledgeable about the problems of the current age. x
14 Has the awareness of Professional ethics and responsibility. x
15 Has awareness about Project management, workplace applications, health of workers, environment and work security; and about legal consequences of engineering applications. x



ECTS ALLOCATED BASED ON STUDENT WORKLOAD BY THE COURSE DESCRIPTION
Activities Quantity Duration (Hour) Total Work Load (h)
Course Duration 13 2 26
Hours for off-the-classroom study (Pre-study, practice) 14 2 28
Mid-terms 1 10 10
Final examination 1 10 10
Total Work Load (h) 74
Total Work Load / 30 (h) 2.47
ECTS Credit of the Course 2