Mechanical Engineering In The Real World
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Mechanical Engineering in the Real World
Mechanical engineers design machines to improve transportation, explore the solar system, and save lives. Mechanical Engineering in the Real World examines the history of this branch of engineering, what mechanical engineers do today, and what's next for the field. Easy-to-read text, vivid images, and helpful back matter give readers a clear look at this subject. Features include a table of contents, infographics, a glossary, additional resources, and an index. Aligned to Common Core Standards and correlated to state standards. Core Library is an imprint of Abdo Publishing, a division of ABDO.
Case Studies in Mechanical Engineering
Using a case study approach, this reference tests the reader’s ability to apply engineering fundamentals to real-world examples and receive constructive feedback Case Studies in Mechanical Engineering provides real life examples of the application of engineering fundamentals. They relate to real equipment, real people and real decisions. They influence careers, projects, companies, and governments. The cases serve as supplements to fundamental courses in thermodynamics, fluid mechanics, heat transfer, instrumentation, economics, and statistics. The author explains equipment and concepts to solve the problems and suggests relevant assignments to augment the cases. Graduate engineers seeking to refresh their career, or acquire continuing education will find the studies challenging and rewarding. Each case is designed to be accomplished in one week, earning up to 15 hours of continuing education credit. Each case study provides methods to present an argument, work with clients, recommend action and develop new business. Key features: Highlights the economic consequences of engineering designs and decisions. Encourages problem solving skills. Application of fundamentals to life experiences. Ability to practice with real life examples. Case Studies in Mechanical Engineering is a valuable reference for mechanical engineering practitioners working in thermodynamics, fluid mechanics, heat transfer and related areas.
ARTIFICIAL INTELLIGENCE FOR MECHANICAL ENGINEERING
The 21st century has ushered in a technological renaissance, with Artificial Intelligence (AI) standing at the forefront as a catalyst for innovation and transformation across every sphere of engineering. Once confined to the realm of computer science, AI has now firmly embedded itself in the domain of mechanical engineering, redefining how machines are designed, manufactured, operated, and maintained. This book, Artificial Intelligence for Mechanical Engineering, is an endeavor to bridge the gap between classical mechanical principles and modern computational intelligence, offering students, researchers, and industry professionals a comprehensive guide to harnessing AI in this dynamic field. Mechanical engineering, traditionally grounded in deterministic models and empirical testing, is witnessing an unprecedented shift toward data-driven, adaptive, and autonomous systems. Whether it is predictive maintenance in industrial plants, generative design in product development, AI-enhanced computational simulations, or intelligent robotics in manufacturing, the integration of AI has opened new horizons for efficiency, precision, and innovation. This transformation is not merely technological—it is philosophical, altering the way engineers perceive problems and conceive solutions. The impetus for writing this book arose from a recognition that while AI tools are rapidly advancing, their practical adoption in mechanical engineering requires both technical understanding and domain-specific adaptation. Many existing resources either focus heavily on AI theory without contextual application, or on mechanical engineering without adequately exploring AI’s potential. Our goal is to synthesize these perspectives—presenting AI concepts with clarity, grounding them in engineering fundamentals, and illustrating their use through real-world case studies.