| 9.Course Outcomes and Teaching Methods, Learning and Assessment |
| A. Cognitive Objectives: A.1 The student learns how to use logic gates in digital electronic circuits A2 - Enable students to design asynchronous and asynchronous meter circuits and treasury recorders A3 - Understand the student the principle of the work of signal converters Analogue - Digital and Digital - Analogue and their types |
| (b) The skills objectives of the course. B1 - Explaining the topics of digital systems by specialists in the subject with emphasis on the use of logic portals as a basis for understanding and learning. B2 - Provide them with the skills of designing electronic circuits for digital systems. B3 - Focus on the applications of electronic circuits B4 - Provide them with the skills of implementing designs practically and how to use them |
| Teaching and learning methods |
| ü The teacher gives detailed theoretical lectures ü The teacher requests periodic reports of the main topics of the material |
| Evaluation Methods |
| 1 - Daily exams with practical and scientific questions. 2 - Participation grades for difficult competition questions among students. 3 - Setting grades for homework and reports assigned to them. 4- Quarterly exams for the curriculum in addition to the mid-year exam and the final exam |
| C. Emotional and Value Objectives: Part 1 - Enable students to think and analyze topics related to the engineering framework such as various electrical circuits. A2 - Enable students to think and analyze topics related to digital systems. A3 - Enable students to think and analyze topics related to solving practical problems. |
| Teaching and learning methods |
| · Lectures, exercises and discussions · Laboratory Practical Applications |
| Evaluation Methods |
- Practical tests
- Theoretical Tests
- Duties
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| D. General and Qualifying Skills Transferred (Other Skills Related to Employability and Personal Development). D1 - Enable students to write reports on topics related to the subject of logical design. D2 - Enable students to link theories with the practical reality of electronic circuits. D3 - Enable students to pass professional tests organized by local or international bodies. D4 - Enable students to continuously develop themselves after graduation. |