Week |
Subject |
Related Preparation |
1) |
Basic concepts of engineering: Duties and responsibilities of engineers in general engineering ethics
|
- |
2) |
System Definition: Definition of a system and its surroundings, concepts of input and output
|
- |
3) |
Basic Scientific Units:
SI and British unit systems, unit conversions
|
- |
4) |
Transformation of Energy via a Block Diagram Approach:
Interaction of the sub-systems between each other, basic energy transformation processes
|
- |
5) |
Transformation of Energy via a Block Diagram Approach:
Basic Energy Transformation Processes
|
- |
6) |
Conventional Sources of Energy: Petroleum, natural gas, coal
|
- |
7) |
Alternative Sources of Energy: Hydrogen energy, fuel cells, nuclear energy
|
- |
8) |
Renewable Energy: Solar energy, wind energy, bio-energy
|
- |
9) |
The Role of Energy Systems Engineers in Today’s World and in the Future: The work scope of energy systems engineers, current and future trends in energy systems engineering
|
- |
10) |
Term Project Presentations |
The students should revise the lecture notes on the related topic of that particular day's presentation. |
11) |
Term Project Presentations |
The students should revise the lecture notes on the related topic of that particular day's presentation. |
12) |
Term Project Presentations |
The students should revise the lecture notes on the related topic of that particular day's presentation. |
13) |
Term Project Presentations |
The students should revise the lecture notes on the related topic of that particular day's presentation. |
14) |
Term Project Presentations |
The students should revise the lecture notes on the related topic of that particular day's presentation. |
15) |
Preparation for the final exam |
- |
16) |
Preparation for the final exam |
- |
|
Program Outcomes |
Level of Contribution |
1) |
Develop close interest in human mind and behavior, and attain critical thinking skills (in particular the ability to evaluate psychological theories using empirical evidence), as well as appreciating psychology as an evidence based science. |
|
2) |
Gain a biopsychosocial understanding of human behavior, namely, the biological, psychological, social determinants of behavior. |
|
3) |
Acquire theoretical and applied knowledge and learn about basic psychological concepts and perspectives |
|
4) |
Familiarize with methodology and data evaluation techniques by being aware of scientific research methods (i.e. correlational, experimental, longitudinal, case study). |
|
5) |
Employ ethical sensitivity while doing assessment, research or working with groups. |
|
6) |
Familiarize with the essential perspectives of psychology (cognitive, developmental, clinical, social, behavioral, and biological). |
|
7) |
Get the opportunity and skills to evaluate qualitative and quantitative data, write reports, and present them. |
|
8) |
Attain preliminary knowledge for psychological measurement and evaluation. |
|
9) |
To have a basic knowledge of other disciplines (e.g. sociology, history, political science, communication studies, philosophy, anthropology, literature, law, art, etc) that can contribute to psychology and to be able to make use of this knowledge in understanding and interpreting of psychological process. |
3 |