| Program Outcome |
Description |
Courses |
| PO1(a) |
Knowledge of mathematics, natural sciences, fundamental engineering, computer-based computation, and topics specific to the relevant engineering discipline; |
PHYS101, MATH151, CHE105, PHYS102, MATH152, ME108, AE112, CMPE102, MATH275, ENE203, ME201, MATH276, ME210, MECE204, MATH380, AE307 |
| PO1(b) |
the ability to use this knowledge to solve complex engineering problems. |
PHYS101, MATH151, CHE105, PHYS102, MATH152, CMPE102, MATH275, ENE203, ME201, MATH276, ME210, MECE204, MATH380, AE307 |
| PO2 |
The ability to identify, formulate, and analyze complex engineering problems using fundamental science, mathematics, and engineering knowledge while considering the relevant UN Sustainable Development Goals associated with the problem addressed. |
AE207, AE214, AE312, AE308, AE431, AE435, AE432, AE434 |
| PO3(a) |
The ability to design creative solutions to complex engineering problems; |
AE207, AE214, AE308, AE431, AE436 |
| PO3(b) |
the ability to design complex systems, processes, devices, or products to meet current and future requirements while considering realistic constraints and conditions. |
AE312, MECE306, AE431, AE435, AE436, AE434 |
| PO4 |
The ability to select and use appropriate techniques, resources, and modern engineering and information (IT) tools, including estimation and modeling, for the analysis and solution of complex engineering problems, while being aware of their limitations. |
AE112, AE207, AE312, AE308, AE431, AE435, AE436, AE434 |
| PO5(a) |
The ability to conduct literature review for the investigation of complex engineering problems; and |
AE431, AE436 |
| PO5(b) |
the ability to use research methods, including designing and conducting experiments, collecting data, and analyzing and interpreting results. |
AE207, AE432, AE436, AE434 |
| PO6(a) |
Knowledge of the impacts of engineering applications on society, health and safety, the economy, sustainability and the environment within the framework of the UN Sustainable Development Goals; and |
AE111, AE207, AE214, AE312, AE308, AE431, AE435, AE432, AE434 |
| PO6(b) |
awareness of the legal consequences of engineering solutions. |
FE302, AE431, AE432 |
| PO7(a) |
Acting in accordance with the principles of the engineering profession; knowledge of ethical responsibilities; and |
AE111, FE302, AE431, AE432 |
| PO7(b) |
awareness of impartial conduct without discrimination in any matter and of being inclusive toward diversity. |
FE302, AE431, AE432 |
| PO8(a) |
The ability to work effectively individually. |
FE302, AE431, AE432 |
| PO8(b) |
The ability to work effectively as a team member or leader in interdisciplinary teams (face-to-face, remote or hybrid). |
AE112, FE302, AE431, AE432 |
| PO8(c) |
The ability to work effectively as a team member or leader in multidisciplinary teams (face-to-face, remote or hybrid). |
FE302, Area Elective (Multidisciplinary Courses) |
| PO9(a) |
The ability to communicate effectively verbally on technical topics, taking into account the diversity of the target audience (such as education, language, and profession); and |
FE302, AE431, AE432 |
| PO9(b) |
the ability to communicate effectively in writing. |
AE207, AE431, AE432 |
| PO10(a) |
Knowledge of professional practices such as project management and economic feasibility analysis; and |
FE302, AE431, AE432 |
| PO10(b) |
awareness of entrepreneurship and innovation. |
General Elective (Entrepreneurship), FE302, AE431, AE432 |
| PO11 |
The ability for lifelong learning, including independent and continuous learning, adaptability to new and emerging technologies, and critical thinking about technological change. |
AE112, General Elective (Entrepreneurship) |
