To teach fundamentals of electric and magnetism in physics.
Prerequisite(s)
None
Corequisite(s)
None
Special Requisite(s)
None
Instructor(s)
Lecturer Gözde YILMAZ
Course Assistant(s)
None
Schedule
Tuesday, 11:00-14:50
Office Hour(s)
Tuesday, 09:00-10:00, 3A03
Teaching Methods and Techniques
The subject is explained theoretically and the topics are reinforced with practical solutions with appropriate examples.
Principle Sources
Teknolojinin Bilimsel İlkeleri - II, Anadolu Üniversitesi Yayınları
Other Sources
University Physics, Hugh D. Young and Roger A. Freedman.
Course Schedules
Week
Contents
Learning Methods
1. Week
Matter and Charge, Electrostatic, Electrical Charge
Lesson Explanation, Question Solution
2. Week
Coulomb’s Law, Conductors and Insulators
Lesson Explanation, Question Solution
3. Week
Electrical Force and Electrical Field
Lesson Explanation, Question Solution
4. Week
Gauss Law, Parallel Metal Plates
Lesson Explanation, Question Solution
5. Week
Potential Difference
Lesson Explanation, Question Solution
6. Week
Electrical Current, Ohm’s Law, Resistance, Resistivity and Power
Lesson Explanation, Question Solution
7. Week
Problem solving
Lesson Explanation, Question Solution
8. Week
Mid-term exam
Midterm Exam
9. Week
D.C Circuits, Solutions of problems of D.C Circuits, Ammeters and Voltmeters
Lesson Explanation, Question Solution
10. Week
Capacitors and Dielectric
Lesson Explanation, Question Solution
11. Week
Magnetism, Magnetism Field, Biot-Savart’s Law
Lesson Explanation, Question Solution
12. Week
Ampére’s Law and Faraday’s Law
Lesson Explanation, Question Solution
13. Week
Magnetism Characteristics of Matter, Transformers
Lesson Explanation, Question Solution
14. Week
Light, Wave-Particle Characteristic of Light
Lesson Explanation, Question Solution
15. Week
Final exam
Final Exam
16. Week
Final exam
Final Exam
17. Week
Final exam
Final Exam
Assessments
Evaluation tools
Quantity
Weight(%)
Midterm(s)
1
50
Final Exam
1
50
Program Outcomes
PO-1
Optician has a basic level of theoretical knowledge in the field
PO-2
They describes terms related to Opticianry field
PO-3
They will have a basic level of practical knowledge in Opticianry field
PO-4
They define problems when faced with an unexpected situation in line with the information obtained from the device.
PO-5
Detects problems and looks for solutions in their field
PO-6
Optician, using the basic knowledge of a given task is executed independently owned.
PO-7
Lifelong learning awareness, identify learning requirements and access to information resources.
PO-8
Inform individuals and organizations about the use of technological knowledge and skills they possess in the relevant issues, share their suggestions for solutions to problems orally and in writing.
PO-9
An optician, use the acquired knowledge and skills at a basic level, he served as a member of the team to face any problem.
PO-10
Personal and public health have sufficient awareness of safety and environmental protection will be aware of the risks that threaten the environment, warned the environmental and human health protection.
Learning Outcomes
LO-1
Learns Electrostatic, Electrical charge, Coulomb's Law, Conductors and insulators, Electrical forces and fields, Electric field and potential difference, parallel metal plates.
LO-2
Learns the electric current, the law of resistance and ohm (potential difference (V), current (A) and resistance (ohm)), resistivity, power and electric heat.
LO-3
Learns Direct current circuits, solution of circuit problems, ammeters and voltmeters, capacitors, dielectric concepts.
LO-4
Learns the concepts of capacitors, dielectric, magnetism and magnetic field of the current Biot-Savart Law are taught.
LO-5
Lerans Ampére Law, Magnetic field, Magnetic flux and Faraday law.
