| knowledge | K |
| Understand the mathematical concepts required in electrical engineering and their applications, including differential and integral calculus, arithmetic, and statistics. | K1 |
| Identify the fundamentals and practices of electrical engineering required for the analysis, design, and risk assessment and management of electrical systems. | K2 |
| An ability to identify the basic facts, concepts, principles and theories of electric power, communication systems, electronic systems, control systems, and that of other relevant fields. | K3 |
| Identify the basic principles of engineering science that is relevant to electrical engineering. | K4 |
| Identify the principles of engineering management and the impact of electrical engineering in the global context. | K5 |
| An ability to use technical language and write reports. | K6 |
| Skills | S |
| An ability to design and conduct experiments as well as analyze and interpret data. | S1 |
| An ability to design a system, a component, or a process that meets the desirable requirements within realistic constraints such as economic, environmental, social, political, ethical, health and safety, manufacturability, and sustainability. | S2 |
| An ability to evaluate, analyze, and conduct literature review, which are then applied to design solutions for complex electrical engineering problems. | S3 |
| An ability to analyze the impact of engineering solutions in a global, economic and societal context. | S4 |
| An ability to assess contemporary issues related to electrical engineering. | S5 |
| An ability to assess failures of components, system and processes. | S6 |
| Competencies | C |
| An ability to function effectively on a team whose members together practice leadership. | C1 |
| An ability to use the latest technologies, skills, and tools necessary to practice engineering and perform decision-making. | C2 |
| An ability to recognize ethical and professional responsibilities in engineering situations and make informed and considerate judgments. | C3
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