具体描述
Book Description The Eide text has been a best seller in the introductory/freshman engineering market since it came out in 1979. It has always been known for its reliable and principles-based focus. In this edition, careful updating of the homework problems along with an earlier treatment of design will make this a favorite again.Even in a course area that increasingly requires a variety of module books as well as broad unifying texts, this title is always considered for the first engineering course. For those instructors who do want Eide's fundamentals approach but desire a shorter text to complement other application specific texts, McGraw-Hill offers the BEST version of this text as well. Please see Eide's Introduction to Engineering Design and Problem Solving, 2nd edition, from the BEST series. --This text refers to the Hardcover edition.
Engineering Fundamentals and Problem Solving: A Journey Beyond the Textbook This book, Engineering Fundamentals and Problem Solving, is not a mere compilation of facts and formulas; it is an invitation to explore the very essence of engineering thought and practice. It delves into the foundational principles that underpin every discipline within this vast and dynamic field, and critically, it illuminates the art and science of transforming theoretical knowledge into tangible solutions for real-world challenges. Rather than presenting a static archive of established concepts, this work aims to foster a proactive, inquisitive mindset, equipping the reader with the tools and perspectives necessary to not only understand existing engineering marvels but also to envision and create the innovations of tomorrow. The journey begins with a deep dive into the bedrock of engineering: the fundamental sciences. We will revisit and reimagine the core tenets of physics and mathematics, not as abstract academic subjects, but as the indispensable language and toolkit of the engineer. Understanding Newton's laws of motion, for instance, transcends memorizing equations; it involves grasping the principles of force, acceleration, and inertia, and then applying them to predict the behavior of everything from a simple lever to a complex aircraft. Similarly, calculus becomes a powerful lens through which to analyze rates of change, optimize processes, and model dynamic systems. This section is designed to solidify the reader's conceptual grasp, emphasizing the interconnectedness of these scientific disciplines and their direct relevance to engineering problems. We will explore how abstract mathematical concepts find concrete expression in the design of bridges, the efficiency of engines, and the integrity of materials. Beyond the fundamental sciences, the book meticulously dissects the core engineering disciplines. While the term "engineering" encompasses a breathtaking array of specialties, there are unifying principles and methodologies that resonate across them all. We will examine the foundational concepts of mechanical engineering, understanding stress, strain, thermodynamics, and fluid mechanics as vital components in the design of machines, systems, and energy solutions. Electrical engineering will be explored through the lens of circuits, electromagnetism, and signal processing, revealing how these principles power our modern world, from the smallest electronic device to vast power grids. Chemical engineering's role in transforming raw materials into essential products will be investigated through the study of reaction kinetics, mass transfer, and process control. Civil engineering will be approached by dissecting the structural integrity of buildings, the flow of water in infrastructure, and the planning of transportation networks. Materials science will be examined not just as a distinct field, but as an integral consideration for all engineers, understanding the properties and limitations of metals, polymers, ceramics, and composites. However, Engineering Fundamentals and Problem Solving distinguishes itself by not stopping at theoretical exposition. The true heart of engineering lies in its problem-solving capabilities. This book is dedicated to cultivating that vital skill. We will embark on a structured exploration of the engineering design process – a systematic approach that guides the transformation of an idea into a working solution. This process, often iterative and demanding, begins with the clear identification and definition of a problem. It then moves through the stages of conceptualization, where a multitude of potential solutions are brainstormed, followed by analysis and selection of the most promising approach. Prototyping and testing are crucial phases, allowing for the validation of designs and the identification of areas for refinement. Finally, implementation and evaluation ensure that the solution effectively addresses the original problem and meets all performance criteria. Within this framework, the book emphasizes various problem-solving methodologies. We will delve into analytical techniques, exploring how to break down complex problems into manageable sub-problems and apply logical reasoning and quantitative analysis to find solutions. Creative problem-solving strategies will also be highlighted, encouraging the generation of novel ideas and unconventional approaches. Techniques such as brainstorming, mind mapping, and lateral thinking will be introduced as tools to overcome creative blocks and foster innovation. The importance of critical thinking will be woven throughout, encouraging the reader to question assumptions, evaluate evidence, and make sound judgments. This involves not only identifying potential flaws in a design but also rigorously assessing the strengths and weaknesses of different approaches. Furthermore, Engineering Fundamentals and Problem Solving places significant emphasis on the role of modeling and simulation. In today's technological landscape, engineers rarely rely solely on physical prototypes. Computational tools and simulation software have become indispensable for predicting system behavior, optimizing designs, and identifying potential failures before they occur in the physical world. The book will explore how to effectively use these tools, not just as black boxes, but as extensions of analytical reasoning. Understanding the principles behind these simulations, the assumptions made, and the limitations of the models is paramount to their effective application. Ethical considerations and societal impact are also integral to the engineering profession, and this book does not shy away from these critical aspects. Engineering solutions exist within a broader societal context, and engineers have a profound responsibility to consider the environmental, economic, and social consequences of their work. We will explore case studies and principles that highlight the importance of sustainable design, safety regulations, and the ethical decision-making required to ensure that engineering advancements benefit humanity without causing undue harm. This includes understanding the long-term implications of design choices, the responsible use of resources, and the need for transparency and accountability. The reader will also be introduced to the crucial aspects of communication and teamwork, recognizing that engineering is rarely a solitary pursuit. The ability to effectively communicate technical information, both verbally and in writing, is essential for collaborating with colleagues, presenting findings to stakeholders, and documenting designs. The book will offer insights into best practices for technical writing, report generation, and presentation skills. Moreover, it will underscore the value of teamwork, highlighting how diverse perspectives and collaborative efforts lead to more robust and innovative solutions. Understanding different roles within a team, fostering constructive feedback, and managing project timelines are all essential components of successful engineering endeavors. Ultimately, Engineering Fundamentals and Problem Solving aims to inspire a lifelong journey of learning and adaptation. The field of engineering is in perpetual motion, driven by new discoveries, technological advancements, and evolving societal needs. This book is designed to provide a robust foundation that enables the reader to not only keep pace with these changes but to actively contribute to them. It is a primer for those seeking to understand the fundamental building blocks of the engineered world and, more importantly, to cultivate the mindset and skills necessary to become an effective and innovative problem solver in any engineering domain. It is an invitation to look at the world with an engineer's eye, to identify challenges, and to confidently embark on the path to creating meaningful solutions.
