Course Information


Course Information
Course Title Code Semester L+U Hour Credits ECTS
PHYSICS SHM159 1. Semester 2 + 0 2.0 5.0

Prerequisites None

Language of Instruction Turkish
Course Level Associate's Degree
Course Type Compulsory
Mode of delivery Oral presentation, question and answer, case study, simulation.
Course Coordinator
Instructors
Assistants
Goals To provide students with a clear and logical presentation of the basic concepts and principles of physics • To enable students to understand how this concepts and principles are applied in vocational training • To make students acquire scientific thinking skills.
Course Content Electric Fields, Electric Potential, Direct Current Circuits, Magnetism, Electromagnetic Induction, Alternating Current Circuits.
Learning Outcomes 1) Analyse electric fields and their effects on charged objects.
2) Use Coulomb's Law to analyze electric forces.
3) Apply Ohm’s law and Kirchhoff’s laws to direct and alternating current circuits.
4) Explain the basic concepts of magnetism.
5) Analyze the process of electromagnetic induction.
6) Solve R-C, R-L,L-C ve RLC circuits.

Weekly Topics (Content)
Week Topics Teaching and Learning Methods and Techniques Study Materials
1. Week ELECTRIC FIELDS • Properties of Electric Charges • Coulomb's Law • Electric Field • Motion of Charged Particles in Uniform Electric Field Lecture; Question Answer; Problem Solving; Discussion

 Homework Presentation (Including Preparation Time)
2. Week ELECTRIC FIELDS • Problem Solving Lecture; Question Answer; Problem Solving; Discussion

 Homework Presentation (Including Preparation Time)
3. Week ELECTRIC POTENTIAL• Electric Potential Energy • Potential Difference • Capacitors • Capacitors in Series and Parallel • Energy Stored in Charged Capacitor Lecture; Question Answer; Problem Solving; Discussion

 Homework Presentation (Including Preparation Time)
4. Week ELECTRIC POTENTIAL • Problem Solving Lecture; Question Answer; Problem Solving; Discussion

 Homework Presentation (Including Preparation Time)
5. Week DIRECT-CURRENT CIRCUITS • Electric Current • Resistance and Ohm's Law • Kirchoff's Current Rule • Kirchoff's Voltage Rule Lecture; Question Answer; Problem Solving; Discussion

 Homework Presentation (Including Preparation Time)
6. Week DIRECT-CURRENT CIRCUITS • Resistors in Series and Parallel • Ammeters and Voltmeters Lecture; Question Answer; Problem Solving; Discussion

 Homework Presentation (Including Preparation Time)
7. Week DIRECT-CURRENT CIRCUITS • Problem Solving Lecture; Question Answer; Problem Solving; Discussion

 Homework Presentation (Including Preparation Time)
8. Week MIDTERM EXAMINATION

9. Week MAGNETISM • Magnetic Field Lines • Earth's Magnetic Field • Law of Biot-Savart • Magnetic Force on a Current in a Magnetic Field • Right-Hand Rule • Problem Solving Lecture; Question Answer; Problem Solving; Discussion

 Homework Presentation (Including Preparation Time)
10. Week MAGNETISM • Magnetic Force on a moving charge • Motion of a Charged Particle in a Magnetic Field • Ampere's Law • Magnetic Force between Two Parallel Conductors • Magnetic Fields of Current loops and Solenoids • Problem Solving Lecture; Question Answer; Problem Solving; Discussion

 Homework Presentation (Including Preparation Time)
11. Week ELECTROMAGNETIC INDUCTION • Magnetic Flux • Induce EMF • Faraday's Law • Lenz's Law • Motional EMF • Mutual Induction • Problem Solving Lecture; Question Answer; Problem Solving; Discussion

 Homework Presentation (Including Preparation Time)
12. Week ELECTROMAGNETIC INDUCTION • Self-inductance • RL Circuits • Energy Stored in a Magnetic Field • AC Generators Lecture; Question Answer; Problem Solving; Discussion

 Homework Presentation (Including Preparation Time)
13. Week ELECTROMAGNETIC INDUCTION • Problem Solving Lecture; Question Answer; Problem Solving; Discussion

 Homework Presentation (Including Preparation Time)
14. Week ALTERNATING CURRENT CIRCUITS • Resistors in an AC Circuit • Capacitors in a AC Circuit • Inductors in an AC Circuit • RLC Circuits • Problem Solving Lecture; Question Answer; Problem Solving; Discussion

 Homework Presentation (Including Preparation Time)

Sources Used in This Course
Recommended Sources
Arthur Beiser,”Applied Physics”, McGraw-Hill Trade,2003.
Bahadır Boyacıoğlu, Fizik Ders Sunumu,2017 (https://acikders.ankara.edu.tr/course/view.php?id=30)
D.Halliday, R. Resnick, Fiziğin Temelleri I-II, (Çevri Editörü Prof. Dr.Ç. Yalçın), Ankara, Cantekin Matbaası, 1990.
Frederick J. Bueche ve David A. Jerde, “Fizik İlkeleri I-II”, Çeviri editörü Kemal Çolakoğlu, Palme Yayıncılık, Ankara, 2000.
Frederick J. Bueche. “College Physics”, McGraw-Hill Professional Book Group, 1999.
Raymond A. Serway, “Fen ve Mühendislik için Fizik I-II, Çeviri editörü Kemal Çolakoğlu, Palme Yayıncılık, Ankara, 1995.

Relations with Education Attainment Program Course Competencies
Program RequirementsContribution LevelDK1DK2DK3DK4DK5DK6
PY15555555
PY25555555
PY85555555
PY175555555

*DK = Course's Contrubution.
0 1 2 3 4 5
Level of contribution None Very Low Low Fair High Very High
.

ECTS credits and course workload
Event Quantity Duration (Hour) Total Workload (Hour)
Course Duration (Total weeks*Hours per week) 14 2
Work Hour outside Classroom (Preparation, strengthening) 14 2
Midterm Exam 1 2
Time to prepare for Midterm Exam 1 20
Time to prepare for Final Exam 1 30
Total Workload
Total Workload / 30 (s)
ECTS Credit of the Course
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Course Information
  • Course Information
  • Weekly Topics (Content)
  • Sources Used in This Course
  • Relations with Education Attainment Program Course Competencies
  • ECTS credits and course workload