1 |
An ability to apply general knowledge about mathematics, science and engineering to mechanical engineering related applications. |
2 |
An ability to obtain, evaluate, interpret and apply in-depth knowledge through conducting scientific research. |
3 |
An ability to complete limited or deficient data using scientific methods. |
4 |
An ability to choose, develop and design a machine, machine part or a system based on design conditions, manufacturability, economy and efficiency. |
5 |
An ability to apply engineering knowledge with scientific and societal consciousness, and integrate the knowledge from different disciplines. |
6 |
An ability to communicate effectively wıth both with both verbal and written skills. Conveys the process and results of a study in a systematic and explicit manner, in both native and foreign languages, orally or written. |
7 |
An ability to picture a complex engineering problem, while developing innovative solutions to system, part or process designs. |
8 |
An ability to design, apply, interpret and resolve theoretical and experimental research, and develop new techniques. |
9 |
An ability to function on multidisciplinary teams, propose solutions for complex engineering problems and take responsibilities. |
10 |
An ability to choose and utilize the right techniques and modern tools for engineering applications. |
11 |
Attends to scientific and ethical values during data collection, interpretation, publication, and in professional events. |
12 |
An ability to depict the social and environmental dimensions of engineering applications. An awareness of the necessity of lifelong learning including the developments in science and technology. |
13 |
An ability to apply general knowledge about mathematics, science and engineering to mechanical engineering related applications. |