The recent tragedy in the Gulf of Mexico and resultant ethical consequences for the engineering profession are introduced and discussed. The need for a new engineering ethic is identified and introduced based upon advancements in science, complex systems and eco-philosophy. Motivations for introducing a new ethic rather than modifying existing ethics are also discussed. Table of Contents: Tragedy in the Gulf / Tragedy Unfolding / Engineering Ethics / Complex Systems / Quantum Mechanics / Evolving Principles of the Universe / A New Engineering Ethic / Epilogue
While more and more undergraduate engineering programs are moving toward a multi-disciplinary capstone experience, there remains a need for a suitable textbook. The present text seeks to meet that need by providing a student friendly step by step template for this important and culminating academic journey beginning with the student design team's first meeting with the client to the final report and presentation. The text provides a wide range of design tools, a discussion of various design methodologies, a brief history of modern engineering, and a substantive consideration of engineering ethics. In addition, chapters are included on communication, team building and dealing with the inevitable obstacles that students encounter. Throughout the text, emphasis is placed upon the issues of environmental impact and the importance of diversity.
The recent tragedy in the Gulf of Mexico and resultant ethical consequences for the engineering profession are introduced and discussed. The need for a new engineering ethic is identified and introduced based upon advancements in science, complex systems and eco-philosophy. Motivations for introducing a new ethic rather than modifying existing ethics are also discussed.
A response of the engineering profession to the challenges of security, poverty and underdevelopment, environmental sustainability, and native cultures is described. Ethical codes, which govern the behavior of engineers, are examined from a historical perspective linking the prevailing codes to models of the natural world. A new ethical code based on a recently introduced model of Nature as an integral community is provided and discussed. Applications of the new code are described using a case study approach. With the ethical code based on an integral community in place, new design algorithms are developed and also explored using case studies. Implications of the proposed changes in ethics and design on engineering education are considered. Table of Contents: Preface / Acknowledgments / Introduction / Engineering Ethics / Models of the Earth / Engineering in a Morally Deep World / Engineering Design in a Morally Deep World / Implications for Engineering Education / Final Thoughts / References / Author's Biography
Engineers work in an increasingly complex entanglement of ideas, people, cultures, technology, systems and environments. Today, decisions made by engineers often have serious implications for not only their clients but for society as a whole and the natural world. Such decisions may potentially influence cultures, ways of living, as well as alter ecosystems which are in delicate balance. In order to make appropriate decisions and to co-create ideas and innovations within and among the complex networks of communities which currently exist and are shaped by our decisions, we need to regain our place as professionals, to realise the significance of our work and to take responsibility in a much deeper sense. Engineers must develop the 'ability to respond' to emerging needs of all people, across all cultures. To do this requires insights and knowledge which are at present largely within the domain of the social and political sciences but which need to be shared with our students in ways which are meaningful and relevant to engineering. This book attempts to do just that. In Part 1 Baillie introduces ideas associated with the ways in which engineers relate to the communities in which they work. Drawing on scholarship from science and technology studies, globalisation and development studies, as well as work in science communication and dialogue, this introductory text sets the scene for an engineering community which engages with the public. In Part 2 Catalano frames the thinking processes necessary to create ethical and just decisions in engineering, to understand the implications of our current decision making processes and think about ways in which we might adapt these to become more socially just in the future. In Part 3 Baillie and Catalano have provided case studies of everyday issues such as water, garbage and alarm clocks, to help us consider how we might see through the lenses of our new knowledge from Parts 1 and 2 and apply this to our every day existence as engineers.
The recent tragedy in the Gulf of Mexico and resultant ethical consequences for the engineering profession are introduced and discussed. The need for a new engineering ethic is identified and introduced based upon advancements in science, complex systems and eco-philosophy. Motivations for introducing a new ethic rather than modifying existing ethics are also discussed. Table of Contents: Tragedy in the Gulf / Tragedy Unfolding / Engineering Ethics / Complex Systems / Quantum Mechanics / Evolving Principles of the Universe / A New Engineering Ethic / Epilogue
Engineers work in an increasingly complex entanglement of ideas, people, cultures, technology, systems and environments. Today, decisions made by engineers often have serious implications for not only their clients but for society as a whole and the natural world. Such decisions may potentially influence cultures, ways of living, as well as alter ecosystems which are in delicate balance. In order to make appropriate decisions and to co-create ideas and innovations within and among the complex networks of communities which currently exist and are shaped by our decisions, we need to regain our place as professionals, to realise the significance of our work and to take responsibility in a much deeper sense. Engineers must develop the 'ability to respond' to emerging needs of all people, across all cultures. To do this requires insights and knowledge which are at present largely within the domain of the social and political sciences but which need to be shared with our students in ways which are meaningful and relevant to engineering. This book attempts to do just that. In Part 1 Baillie introduces ideas associated with the ways in which engineers relate to the communities in which they work. Drawing on scholarship from science and technology studies, globalisation and development studies, as well as work in science communication and dialogue, this introductory text sets the scene for an engineering community which engages with the public. In Part 2 Catalano frames the thinking processes necessary to create ethical and just decisions in engineering, to understand the implications of our current decision making processes and think about ways in which we might adapt these to become more socially just in the future. In Part 3 Baillie and Catalano have provided case studies of everyday issues such as water, garbage and alarm clocks, to help us consider how we might see through the lenses of our new knowledge from Parts 1 and 2 and apply this to our every day existence as engineers.
While more and more undergraduate engineering programs are moving toward a multi-disciplinary capstone experience, there remains a need for a suitable textbook. The present text seeks to meet that need by providing a student friendly step by step template for this important and culminating academic journey beginning with the student design team's first meeting with the client to the final report and presentation. The text provides a wide range of design tools, a discussion of various design methodologies, a brief history of modern engineering, and a substantive consideration of engineering ethics. In addition, chapters are included on communication, team building and dealing with the inevitable obstacles that students encounter. Throughout the text, emphasis is placed upon the issues of environmental impact and the importance of diversity.
In the present work, the growing awareness in engineering of the profession’s responsibility towards the environment and the poor is considered. The following approach is taken: a brief overview of the issues of poverty particularly in the U.S. and the deterioration of the natural world with a focus on the Arctic is provided. Case studies involving New Orleans in the aftermath of Hurricane Katrina and the status of polar bears in a time of shrinking Arctic ice cover are detailed. Recent developments in engineering related to the issues of poverty and the environment are discussed. A new paradigm for engineering based on the works of Leonardo Boff and Thomas Berry, one that places an important emphasis upon a community, is explored.
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