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Description of Individual Course Units

Course Unit Code Course Unit Title Type of Course Unit Year of Study Semester Number of ECTS Credits
2601001432025 1 1 4,00

Level of Course Unit

Önlisans

Language of Instruction

Turkish

Objectives of the Course

In this course, direct current circuit analysis and aimed to gain knowledge and skills to make calculations.

Name of Lecturer(s)

Learning Outcomes

1 With the effects of electric current to apply the basic principles.
2 Solutions to the basic circuit.
3 Make complex circuit solutions.
4 Current circuit elements to calculate the effects on the right.

Mode of Delivery

Face to Face

Prerequisities and Co-Requisities

None

Recommended Optional Programme Components

None

Content of the Course

Superposition Theorem, Maximum Power Theorem Maximum Power Theorem, the correct flow of storage elements Direct current storage elements Direct current power and energy Direct current power and energy Direct Current Circuit Solutions, Environmental Flows Method Environmental Flows Method Node Voltage Method Resource Links, Thevenin's Theorem Thevenin's Theorem, Norton Theorem Norton's Theorem, Superposition Theorem Static Electricity Static Electricity, Take Precautions Against Electric Current Unforeseen Effects Take Precaution Against Unforeseen Effects of Electric Current, Direct Current Circuit Solutions

Weekly Detailed Course Contents

Week Subjects (Theoretical) Laboratuvar Teaching Methods Preparatory
1 Structure of matter, concept of conductivity, electric charge, electric field, electric potential. EXPRESSION
2 Electric current, current density, emf and voltage, resistance, Ohm's law, change of resistance with temperature, electrical energy transfer. PROBLEM SOLUTION.
3 Electrical circuit elements and types of electrical circuits, direct current sources and source transformations, series-parallel-mixed circuits and Kirchoff's laws. PROBLEM SOLUTION.
4 Sources of voltage. Current sources. Resource conversions. PROBLEM SOLUTION.
5 Series, parallel and mixed circuit solutions. Star triangle, triangle star transformations. PROBLEM SOLUTION.
6 Solution methods of direct current circuits, mesh current method. PROBLEM SOLUTION.
7 Solution methods of direct current circuits, mesh current method. PROBLEM SOLUTION.
8 Midterm
9 Circuit Solutions in Direct Current, MILLMAN Theorem. PROBLEM SOLUTION.
10 Circuit Solutions in Direct Current, THEVENIN Theorem. PROBLEM SOLUTION.
11 Circuit Solutions in Direct Current, NORTON Theorem. PROBLEM SOLUTION.
12 Circuit Solutions in Direct Current, SUPERPOSITION Theorem. PROBLEM SOLUTION.
13 Circuit Solutions in Direct Current, NODE VOLTAGE Theorem. PROBLEM SOLUTION.
14 Direct Current Storage Elements, Power and Energy PROBLEM SOLUTION.
15 Direct Current Storage Elements, Power and Energy PROBLEM SOLUTION.
16 Final Exam

Text Book / Material / Recommended Resources

Direct current circuits and problem solving - M. YAĞIMLI / F. AKAR Direct current circuit analysis - A. GORKEM / M. KUŞ

Planned Learning Activities and Teaching Methods

Assessment Methods and Criteria

Term (or Year) Learning Activities Quantity Weight
Midterm Examination 1 100
Total 100
End Of Term (or Year) Learning Activities Quantity Weight
Final Examination 1 100
Total 100
Term (or Year) Learning Activities 40
End Of Term (or Year) Learning Activities 60

Work Pacement(s)

None

Workload Calculation

Activities Number Time (hours) Total Work Load (hours)
Midterm Examination 1 1 1
Final Examination 1 1 1
Attending Lectures 14 3 42
Practice 14 1 14
Self Study 1 20 20
Individual Study for Homework Problems 1 10 10
Individual Study for Mid term Examination 1 20 20
Individual Study for Final Examination 1 20 20
Total Work Load (hours) 128

Contribution of Learning Outcomes to Programme Outcomes

PO 1 PO 2 PO 3 PO 4 PO 5 PO 6 PO 7 PO 8 PO 9 PO 10 PO 11
LO 1 5 5
LO 2 5 5
LO 3 5 5
LO 4 5 5
* Contribution Level: 1 Very low 2 Low 3 Medium 4 High 5 Very High