Course Name Code Semester T+U Hours Credit ECTS
Mining Geophysics JFM 505 0 3 + 0 3 6
Precondition Courses
Recommended Optional Courses
Course Language Turkish
Course Level yuksek_lisans
Course Type Optional
Course Coordinator Dr.Öğr.Üyesi AYHAN KESKİNSEZER
Course Lecturers Dr.Öğr.Üyesi AYHAN KESKİNSEZER,
Course Assistants
Course Category
Course Objective

Determination according to the type of geophysical methods used in mining and mineral exploration of gender issues is to teach more advanced students.

Course Content

Type ore deposits and formations, determine of suitable geophysical methods for different ore deposits, determine of geophysical methods. Mining prospecting principles with geophysical methods. Stage of process in geophysical prospecting. Design to geophysical methods. New techniques in Electrical, Electromagnetic, Seismic, Magnetic etc. the other geophysical methods.

# Course Learning Outcomes Teaching Methods Assessment Methods
1 Students distinguish the types of mines Lecture, Question-Answer, Simulation, Case Study, Testing,
2 Students distinguish forms of formation of minerals Lecture, Question-Answer, Simulation, Case Study, Testing,
3 Students will not be mine and mine fields that can distinguish from each other for the field Lecture, Question-Answer, Simulation, Case Study, Testing,
4 Students to search by types of mining pick the most appropriate geophysical methods Lecture, Question-Answer, Simulation, Case Study, Testing,
5 Students designed the way they measure the most suitable land Lecture, Question-Answer, Simulation, Case Study, Testing,
6 Students apply the calculation method to field data. Lecture, Question-Answer, Simulation, Case Study, Testing,
7 Students will evaluate and interpret the output measurement and accountability Lecture, Question-Answer, Simulation, Case Study, Testing,
Week Course Topics Preliminary Preparation
1 Definitions and mining work process
2 Formation types and kinds of ores
3 Geophysical prospecting process in mining research
4 Mining research principles with geophysical methods
5 Select of geophysical methods and application type in mining research
6 Design to geophysical measure methods
7 In-situ geophysical applications
8 Evaluation and interpretation of field
9 Electrical methods with mining research
10 Magnetic methods with mining research
11 Electromagnetic methods with mining research
12 Gravity methods with mining research
13 Radioactivity and well logging methods with mining research
14 The other methods with mining research
Resources
Course Notes
Course Resources
Order Program Outcomes Level of Contribution
1 2 3 4 5
1 ability to access wide and deep information with scientific researches in the field of Engineering, evaluate, interpret and implement the knowledge gained in his/her field of study X
1 ability to access wide and deep information with scientific researches in the field of Engineering, evaluate, interpret and implement the knowledge gained in his/her field of study X
1 ability to access wide and deep information with scientific researches in the field of Engineering, evaluate, interpret and implement the knowledge gained in his/her field of study X
2 ability to complete and implement “limited or incomplete data” by using the scientific methods. X
2 ability to complete and implement “limited or incomplete data” by using the scientific methods. X
2 ability to complete and implement “limited or incomplete data” by using the scientific methods. X
3 ability to consolidate engineering problems, develop proper method(s) to solve and apply the innovative solutions to them X
3 ability to consolidate engineering problems, develop proper method(s) to solve and apply the innovative solutions to them X
3 ability to consolidate engineering problems, develop proper method(s) to solve and apply the innovative solutions to them X
4 ability to develop new and original ideas and method(s), to develop new innovative solutions at design of system, component or process X
4 ability to develop new and original ideas and method(s), to develop new innovative solutions at design of system, component or process X
4 ability to develop new and original ideas and method(s), to develop new innovative solutions at design of system, component or process X
5 gain comprehensive information on modern techniques, methods and their borders which are being applied to engineering X
5 gain comprehensive information on modern techniques, methods and their borders which are being applied to engineering X
5 gain comprehensive information on modern techniques, methods and their borders which are being applied to engineering X
6 ability to design and apply analytical, modelling and experimental based research, analyze and interpret the faced complex issues during the design and apply process X
6 ability to design and apply analytical, modelling and experimental based research, analyze and interpret the faced complex issues during the design and apply process X
6 ability to design and apply analytical, modelling and experimental based research, analyze and interpret the faced complex issues during the design and apply process X
7 gain high level ability to define the required information and data X
7 gain high level ability to define the required information and data X
7 gain high level ability to define the required information and data X
8 ability to work in multi-disciplinary teams and to take responsibility to define approaches for complex situations X
8 ability to work in multi-disciplinary teams and to take responsibility to define approaches for complex situations X
8 ability to work in multi-disciplinary teams and to take responsibility to define approaches for complex situations X
9 systematic and clear verbal or written transfer of the process and results of studies at national and international environments X
9 systematic and clear verbal or written transfer of the process and results of studies at national and international environments X
9 systematic and clear verbal or written transfer of the process and results of studies at national and international environments X
10 aware of social, scientific and ethical values guarding adequacy at all professional activities and at the stage of data collection, interpretation and announcement X
10 aware of social, scientific and ethical values guarding adequacy at all professional activities and at the stage of data collection, interpretation and announcement X
10 aware of social, scientific and ethical values guarding adequacy at all professional activities and at the stage of data collection, interpretation and announcement X
11 aware of new and developing application of profession and ability to analyze and study on those applications X
11 aware of new and developing application of profession and ability to analyze and study on those applications X
11 aware of new and developing application of profession and ability to analyze and study on those applications X
12 ability to interpret engineering application’s social and environmental dimensions and it’s compliance with the social environment X
12 ability to interpret engineering application’s social and environmental dimensions and it’s compliance with the social environment X
12 ability to interpret engineering application’s social and environmental dimensions and it’s compliance with the social environment X
Evaluation System
Semester Studies Contribution Rate
1. Ara Sınav 100
Total 100
1. Yıl İçinin Başarıya 40
1. Final 60
Total 100
ECTS - Workload Activity Quantity Time (Hours) Total Workload (Hours)
Course Duration (Including the exam week: 16x Total course hours) 16 3 48
Hours for off-the-classroom study (Pre-study, practice) 16 4 64
Mid-terms 1 18 18
Final examination 1 20 20
Total Workload 150
Total Workload / 25 (Hours) 6
dersAKTSKredisi 6