Scientists and engineers must be trusted by the society. They are required not only to observe laws but also to understand how they should conduct as scientists/engineers and to consider public and the environmental impact. In this lecture, students will learn how to act ethically.
By the end of this course, students will be able to think ethically.
Applied ethics, Ethical values, Ethics in R&D
✔ Specialist skills | Intercultural skills | ✔ Communication skills | Critical thinking skills | ✔ Practical and/or problem-solving skills |
Individual topics will be lectured.
Course schedule | Required learning | |
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Class 1 | Introduction | To understant the necessity of ethics for scientists/engineers as professionals. |
Class 2 | Responsibility of scientists/engineers | To understand responsibility of scientists/engineers. |
Class 3 | Trust and reliability | To understand that honesty is the most important for scinetists/engineers. |
Class 4 | Scientists/engineers in Organizations | To understand positionings in organizations of scientists/engineers. To consider how to act when conflicts of interest occurs. |
Class 5 | How to solve ethical problems | To understand utilitarianism, causistry, etc. and how to solve ethical problems. |
Class 6 | Group discussion | To find the difference among members through case study. |
Class 7 | Environmental protection and SR | To understand the importance of sustainability and social responsibility. |
Class 8 | Intellectual property rights, Globalization | To understand the difference between patent and know-how. To understand important points in the global context. |
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Harris,C.E. et al. Engineering Ethics Concepts and Cases, Wadsworth, 2014.
Broad, W. and Wade, N. Betrayers of the Future Fraud and Deceit in the Halls of Science, Simon and Shuster, 1982.
Evaluating mini tests and contribution to the group discussion
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