MODULE DESCRIPTION FORM
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Module Information معلومات المادة الدراسية |
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Module Title |
DC Electrical Circuits |
Module Delivery |
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Module Type |
Core |
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Module Code |
ATU |
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ECTS Credits |
7 |
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SWL (hr/sem) |
175 |
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Module Level |
UGx11 1 |
Semester of Delivery |
1 |
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Administering Department |
Type Dept. Code |
College |
Type College Code |
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Module Leader |
Mohanad Ahmed AbdulKareem |
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Module Leader’s Acad. Title |
Professor |
Module Leader’s Qualification |
Ph.D. |
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Module Tutor |
Name (if available) |
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Peer Reviewer Name |
Ahmad T Abdulsadda |
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E-mail: [email protected] |
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Scientific Committee Approval Date |
01/06/2023 |
Version Number |
1.0 |
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Relation with other Modules العلاقة مع المواد الدراسية الأخرى |
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Prerequisite module |
None |
Semester |
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Co-requisites module |
None |
Semester |
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Module Aims, Learning Outcomes and Indicative Contents أهداف المادة الدراسية ونتائج التعلم والمحتويات الإرشادية |
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Module Objectives أهداف المادة الدراسية
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Module Learning Outcomes
مخرجات التعلم للمادة الدراسية |
Important: Write at least 6 Learning Outcomes, better to be equal to the number of study weeks.
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Indicative Contents المحتويات الإرشادية |
Indicative content includes the following.
Part A – Basic Concepts Current and voltage definitions, passive sign convention and circuit elements, combining resistive elements in series and parallel
Part B – Basic Laws Series and parallel connections, Ohm’s law, Kirchhoff’s laws, Voltage and current division rules.
Part C – Circuit Analysis Methods Nodal analysis and Mesh analysis.
Part D – Circuit Theorems Thevenin’s and Norton’s theorems, in addition to superposition principle.
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Learning and Teaching Strategies استراتيجيات التعلم والتعليم |
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Strategies |
The main strategy that will be adopted in delivering this module is to encourage students’ participation in the exercises, while at the same time refining and expanding their critical thinking skills. This will be achieved through classes, interactive tutorials and by considering types of simple experiments involving some sampling activities that are interesting to the students.
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Student Workload (SWL) الحمل الدراسي للطالب محسوب لـ ١٥ اسبوعا |
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Structured SWL (h/sem) الحمل الدراسي المنتظم للطالب خلال الفصل |
109 |
Structured SWL (h/w) الحمل الدراسي المنتظم للطالب أسبوعيا |
7 |
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Unstructured SWL (h/sem) الحمل الدراسي غير المنتظم للطالب خلال الفصل |
91 |
Unstructured SWL (h/w) الحمل الدراسي غير المنتظم للطالب أسبوعيا |
6 |
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Total SWL (h/sem) الحمل الدراسي الكلي للطالب خلال الفصل |
200 |
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Module Evaluation تقييم المادة الدراسية |
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As |
Time/Number |
Weight (Marks) |
Week Due |
Relevant Learning Outcome |
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Formative assessment |
Quizzes |
2 |
10% (10) |
5 and 10 |
LO #1, #2 and #10, #11 |
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Assignments |
2 |
10% (10) |
2 and 12 |
LO #3, #4 and #6, #7 |
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Projects / Lab. |
1 |
10% (10) |
Continuous |
All |
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Report |
1 |
10% (10) |
13 |
LO #5, #8 and #10 |
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Summative assessment |
Midterm Exam |
2hr |
10% (10) |
7 |
LO #1 - #7 |
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Final Exam |
3hr |
50% (50) |
16 |
All |
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Total assessment |
100% (100 Marks) |
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Delivery Plan (Weekly Syllabus) المنهاج الاسبوعي النظري |
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Week |
Material Covered |
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Week 1 |
Charge, current, voltage, resistance and conductance |
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Week 2 |
power and energy. Power sign convention. |
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Week 3 |
Basics of Network Elements. |
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Week 4 |
Series and parallel circuits: series circuits, voltage divider rule, current divider rule. |
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Week 5 |
Star-delta transformations. |
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Week 6 |
Kirchhoff's Laws. |
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Week 7 |
Mid-term Exam. |
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Week 8 |
Circuit Analysis - Nodal method. |
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Week 9 |
Circuit Analysis – Mesh method. |
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Week 10 |
Linearity and Superposition. |
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Week 11 |
Source Transformations. |
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Week 12 |
Thevenin’s Theorem. |
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Week 13 |
Norton’s Theorem. |
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Week 14 |
Maximum power transfer theorem. |
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Week 15 |
Preparatory week before the final Exam. |
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Week 16 |
Final Exam. |
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Delivery Plan (Weekly Lab. Syllabus) المنهاج الاسبوعي للمختبر |
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Week |
Material Covered |
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Week 1 |
Lab 1: Ohm’s law. |
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Week 2 |
Lab 2: Series and parallel connections. |
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Week 3 |
Lab 3: Kirchhoff’s laws. |
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Week 4 |
Lab 4: Thevenin’s theorem. |
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Week 5 |
Lab 5: Norton’s theorem. |
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Week 6 |
Lab 6: Superposition principle. |
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Week 7 |
Lab 7: Maximum power transfer. |
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Learning and Teaching Resources مصادر التعلم والتدريس |
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Text |
Available in the Library? |
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Required Texts |
Fundamentals of Electric Circuits, C.K. Alexander and M.N.O Sadiku, McGraw-Hill Education |
Yes |
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Recommended Texts |
DC Electrical Circuit Analysis: A Practical Approach Copyright Year: 2020, dissidents. |
No |
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Websites |
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مخطط الدرجات |
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Group |
Grade |
التقدير |
Marks % |
Definition |
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Success Group (50 - 100) |
A - Excellent |
امتياز |
90 - 100 |
Outstanding Performance |
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B - Very Good |
جيد جدا |
80 - 89 |
Above average with some errors |
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C - Good |
جيد |
70 - 79 |
Sound work with notable errors |
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D - Satisfactory |
متوسط |
60 - 69 |
Fair but with major shortcomings |
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E - Sufficient |
مقبول |
50 - 59 |
Work meets minimum criteria |
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Fail Group (0 – 49) |
FX – Fail |
راسب (قيد المعالجة) |
(45-49) |
More work required but credit awarded |
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F – Fail |
راسب |
(0-44) |
Considerable amount of work required |
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Note: Marks Decimal places above or below 0.5 will be rounded to the higher or lower full mark (for example a mark of 54.5 will be rounded to 55, whereas a mark of 54.4 will be rounded to 54. The University has a policy NOT to condone "near-pass fails" so the only adjustment to marks awarded by the original marker(s) will be the automatic rounding outlined above. |
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