ECTS - General Physics II
General Physics II (PHYS102) Course Detail
Course Name | Course Code | Season | Lecture Hours | Application Hours | Lab Hours | Credit | ECTS |
---|---|---|---|---|---|---|---|
General Physics II | PHYS102 | 2. Semester | 3 | 2 | 0 | 4 | 6 |
Pre-requisite Course(s) |
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N/A |
Course Language | English |
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Course Type | Compulsory Departmental Courses |
Course Level | Bachelor’s Degree (First Cycle) |
Mode of Delivery | Face To Face |
Learning and Teaching Strategies | . |
Course Lecturer(s) |
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Course Objectives | The goal of this course is, by giving the calculus-based concepts of electricity and magnetism, to establish the relationships between mathematics and fundamentals of electricity and magnetism and apply this knowledge to define and solve engineering problems. |
Course Learning Outcomes |
The students who succeeded in this course;
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Course Content | Electric charge, electric fields, Gauss` law, electric potential, capacitance, current and resistance, circuits, magnetic fields, magnetic fields due to currents, induction and inductance. |
Weekly Subjects and Releated Preparation Studies
Week | Subjects | Preparation |
---|---|---|
1 | Electric Charge and Electric Fields | Douglas C. Giancoli, S.647-660 |
2 | Electric Charge and Electric Fields | Douglas C. Giancoli, S.660-672 |
3 | Gauss’ Law | Douglas C. Giancoli, S.683-692 |
4 | Electric Potential | Douglas C. Giancoli, S.718 |
5 | Capacitance, Dielectrics, Electric Energy Storage | Douglas C. Giancoli, S.727-739 |
6 | Capacitance, Dielectrics, Electric Energy Storage | Douglas C. Giancoli, S.739-753 |
7 | Electric Currents and Resistance | Douglas C. Giancoli, S.755-768 |
8 | DC Circuits | Douglas C. Giancoli, S.785-800 |
9 | DC Circuits (cont.) | Douglas C. Giancoli, S.801-815 |
10 | Magnetism | Douglas C. Giancoli, S.817-833 |
11 | Sources of Magnetic Field | Douglas C. Giancoli, S.845-857 |
12 | Electromagnetic Induction and Faraday’s Law | Douglas C. Giancoli, S.886 |
13 | Electromagnetic Induction and Faraday’s Law | Douglas C. Giancoli, S.886-895 |
14 | Inductance | Douglas C. Giancoli, S.907-916 |
15 | Final Examination Period | |
16 | Final Examination Period |
Sources
Evaluation System
Requirements | Number | Percentage of Grade |
---|---|---|
Attendance/Participation | - | - |
Laboratory | 1 | 20 |
Application | - | - |
Field Work | - | - |
Special Course Internship | - | - |
Quizzes/Studio Critics | - | - |
Homework Assignments | 5 | 10 |
Presentation | - | - |
Project | - | - |
Report | - | - |
Seminar | - | - |
Midterms Exams/Midterms Jury | 2 | 40 |
Final Exam/Final Jury | 1 | 30 |
Toplam | 9 | 100 |
Percentage of Semester Work | 70 |
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Percentage of Final Work | 30 |
Total | 100 |
Course Category
Core Courses | X |
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Major Area Courses | |
Supportive Courses | |
Media and Managment Skills Courses | |
Transferable Skill Courses |
The Relation Between Course Learning Competencies and Program Qualifications
# | Program Qualifications / Competencies | Level of Contribution | ||||
---|---|---|---|---|---|---|
1 | 2 | 3 | 4 | 5 | ||
1 | Adequate knowledge in mathematics, science and subjects specific to the energy systems engineering discipline; the ability to apply theoretical and practical knowledge of these areas to complex engineering problems. | X | ||||
2 | The ability to identify, define, formulate and solve complex engineering problems; selecting and applying proper analysis and modeling techniques for this purpose. | |||||
3 | The ability to design a complex system, process, device or product under realistic constraints and conditions to meet specific requirements; the ability to apply modern design methods for this purpose. | |||||
4 | The ability to develop, select and utilize modern techniques and tools essential for the analysis and determination of complex problems in energy systems engineering applications; the ability to utilize information technologies effectively. | |||||
5 | The ability to design experiments, conduct experiments, gather data, analyze and interpret results for the investigation of complex engineering problems or research topics specific to the energy systems engineering discipline. | |||||
6 | The ability to work effectively in inter/inner disciplinary teams, the ability to work individually. | |||||
7 | a)Effective oral and writen communication skills in Turkish; the ability to write effective reports and comprehend written reports, to prepare design and production reports, to make effective presentations, to give and to receive clear and understandable instructions. b)The knowledge of at least one foreign language; the ability to write effective reports and comprehend written reports, to prepare design and production reports, to make effective presentations, to give and to receive clear and understandable instructions. | |||||
8 | Recognition of the need for lifelong learning; the ability to access information, to follow recent developments in science and technology. | |||||
9 | a)The ability to behave according to ethical principles, awareness of professional and ethical responsibility; b)knowledge of the standards utilized in energy systems engineering applications. | |||||
10 | Knowledge on business practices such as project management, risk management and change management; awareness about entrepreneurship, innovation; knowledge on sustainable development. | |||||
11 | a) Knowledge on the effects of energy systems engineering applications on the universal and social dimensions of health, environment and safety; b) and awareness of the legal consequences of engineering solutions. |
ECTS/Workload Table
Activities | Number | Duration (Hours) | Total Workload |
---|---|---|---|
Course Hours (Including Exam Week: 16 x Total Hours) | 16 | 3 | 48 |
Laboratory | 14 | 2 | 28 |
Application | |||
Special Course Internship | |||
Field Work | |||
Study Hours Out of Class | 14 | 3 | 42 |
Presentation/Seminar Prepration | |||
Project | |||
Report | |||
Homework Assignments | |||
Quizzes/Studio Critics | |||
Prepration of Midterm Exams/Midterm Jury | 2 | 10 | 20 |
Prepration of Final Exams/Final Jury | 1 | 15 | 15 |
Total Workload | 153 |