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  • Technology Innovation in Manufacturing
    Technology Innovation in Manufacturing

    This text identifies and discusses different technology innovation initiatives (TIIs) such as entrepreneurial capability, technology infrastructure capability, organizational culture and climate, and government initiatives.It further evaluates the relationship between various technology innovation initiatives and manufacturing performances using multi-criteria decision-making techniques such as fuzzy set theory (FST), structural equation modeling (SEM), and analytic hierarchy process (AHP).It will serve as an ideal reference text for graduate students and academic researchers in the field of industrial engineering, manufacturing engineering, mechanical engineering, automotive engineering. This book:• Discusses technology innovation initiatives such as entrepreneurial capability, technology infrastructure capability, and organizational culture. • Highlights technology innovation-strategy model in assisting manufacturing industries for enhancing their performance in today’s competitive environment. • Examines the effect of technology innovation initiatives on the performance of manufacturing industries. • Covers multi-criteria decision-making techniques such as fuzzy set theory, structural equation modeling, and analytic hierarchy process. • Explores the validation of fuzzy-based technology innovation model through structural equation modeling.

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  • Food Engineering Automation with Robotics and AI
    Food Engineering Automation with Robotics and AI


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  • Manufacturing Engineering and Technology in SI Units
    Manufacturing Engineering and Technology in SI Units

    For courses in manufacturingprocess A comprehensive text on thescience, engineering, and technology of manufacturing In Manufacturing Engineering and Technology, 8thEdition in SI Units, the authors continue their efforts to present acomprehensive, balanced, and most importantly, an up-to-date coverage of thescience, engineering, and technology of manufacturing.It places an emphasis onthe interdisciplinary nature of every manufacturing activity, including complexinteractions between materials, design, process, and manufacturing process andoperations. The text is designed to help students learn not only the scienceand engineering that drives manufacturing, but to understand and appreciatemanufacturing’s important role in our modern, global economy.With more than120 examples and case studies, the text presents students with a breadth ofchallenges while providing them the tools and encouragement to exploresolutions to those challenges. Thenew edition is thoroughly updated with numerous new topics and illustrationsrelevant to all aspects of manufacturing and includes a completely revisedchapter covering the rapid advances in additive manufacturing.

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  • Human Factors in Engineering : Manufacturing Systems, Automation, and Interactions
    Human Factors in Engineering : Manufacturing Systems, Automation, and Interactions

    This book addresses aspects of human factors in engineering and provides a detailed discussion of novel approaches, systems engineering tools, artificial cognitive systems, and intelligent technologies and automation.It presents applications in diverse areas, including digital manufacturing, transportation, infrastructure development, and cybersecurity. This book:• Merges the engineering perspective with the human factors and social dimension of computing and artificial intelligence–based technologies. • Covers technological development of human factors engineering and the human dimension in applications across all areas of modern society. • Relates to human behavior in the context of technology and systems interactions. • Discusses the design and the appropriation of 3D printing techniques in the management of an innovative product system. • Presents systems engineering tools, user experience methodologies, artificial cognitive systems, intelligent technologies, and automation. The text is for students, professionals, and researchers in the fields of ergonomics, human factors, industrial engineering, and manufacturing engineering.

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  • What is cosmic evolution, chemical evolution, biological evolution, and cultural evolution?

    Cosmic evolution refers to the development and changes in the universe over time, including the formation of galaxies, stars, and planets. Chemical evolution is the process by which elements and compounds have changed and evolved over time, leading to the formation of complex molecules and the conditions necessary for life. Biological evolution is the process by which living organisms have changed and diversified over time through genetic variation, natural selection, and other mechanisms. Cultural evolution refers to the development and changes in human societies, including the growth of technology, language, art, and social structures.

  • Is it possible to work as a machining mechanic after completing the training as a precision mechanic specializing in machining technology?

    Yes, it is possible to work as a machining mechanic after completing training as a precision mechanic specializing in machining technology. The skills and knowledge gained during the precision mechanic training, such as operating and programming CNC machines, reading technical drawings, and understanding different machining processes, are directly applicable to the role of a machining mechanic. Additionally, with some additional training or on-the-job experience, a precision mechanic can easily transition into a role as a machining mechanic.

  • What triggers evolution?

    Evolution is triggered by a combination of factors, including genetic mutations, natural selection, genetic drift, and gene flow. Genetic mutations create new variations in a population, which can then be acted upon by natural selection, where individuals with advantageous traits are more likely to survive and reproduce. Genetic drift and gene flow also play a role in shaping the genetic makeup of a population over time. These factors collectively drive the process of evolution by leading to changes in the frequency of genetic traits within a population.

  • Is evolution stingy?

    Evolution is not inherently stingy, but rather it is driven by the process of natural selection, which favors traits that increase an organism's chances of survival and reproduction. This can sometimes result in the appearance of stinginess, as resources are allocated to the most advantageous traits. However, evolution also promotes cooperation and mutualism in many species, leading to the development of symbiotic relationships and social behaviors that benefit the group as a whole. Overall, evolution is a complex process that can result in both competitive and cooperative behaviors, depending on the specific ecological and environmental pressures at play.

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  • Precision Cnc Machining Parts Custom Cnc Machining Manufacturing for Photography Equipment
    Precision Cnc Machining Parts Custom Cnc Machining Manufacturing for Photography Equipment

    Precision Cnc Machining Parts Custom Cnc Machining Manufacturing for Photography Equipment

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  • Evolution of Solid Phase Microextraction Technology
    Evolution of Solid Phase Microextraction Technology

    Solid Phase Microextraction (SPME) is a flexible and convenient sampling and sample preparation technique that extracts different kinds of analytes, including both volatile and non-volatile, without the use of a solvent.The technique facilitates fast, simple and automated determination of target analytes in a range of matrices.As it offers a green methodology, it is growing in popularity as an alternative tool in analytical chemistry to traditional methods.This book follows on in spirit from the editors’ previous title, Applications of Solid Phase Microextraction and will introduce the reader to breakthrough methodologies and cutting edge applications.Although it assumes a good degree of SPME knowledge, an overview of the fundamentals is given before taking the reader through an update of the field.The reader will learn the basic principles and advantages of different SPME formats including the stir bar extraction techniques, thin film SPME, Bio-SPME, and new trends in different coatings.Applications in complex media, including food analysis, drug residues and bioanalysis are covered. Bringing together leading sample preparation academics from around the world, the editor has put together an informative new book, suitable for analytical chemists and practitioners utilising SPME tools in their research.

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  • Convergent Evolution in Stone-Tool Technology
    Convergent Evolution in Stone-Tool Technology

    Scholars from a variety of disciplines consider cases of convergence in lithic technology, when functional or developmental constraints result in similar forms in independent lineages. Hominins began using stone tools at least 2.6 million years ago, perhaps even 3.4 million years ago.Given the nearly ubiquitous use of stone tools by humans and their ancestors, the study of lithic technology offers an important line of inquiry into questions of evolution and behavior.This book examines convergence in stone tool-making, cases in which functional or developmental constraints result in similar forms in independent lineages.Identifying examples of convergence, and distinguishing convergence from divergence, refutes hypotheses that suggest physical or cultural connection between far-flung prehistoric toolmakers.Employing phylogenetic analysis and stone-tool replication, the contributors show that similarity of tools can be caused by such common constraints as the fracture properties of stone or adaptive challenges rather than such unlikely phenomena as migration of toolmakers over an Arctic ice shelf. ContributorsR. Alexander Bentley, Briggs Buchanan, Marcelo Cardillo, Mathieu Charbonneau, Judith Charlin, Chris Clarkson, Loren G.Davis, Metin I. Eren, Peter Hiscock, Thomas A. Jennings, Steven L. Kuhn, Daniel E. Lieberman, George R. McGhee, Alex Mackay, Michael J. O'Brien, Charlotte D. Pevny, Ceri Shipton, Ashley M. Smallwood, Heather Smith, Jayne Wilkins, Samuel C. Willis, Nicolas Zayns

    Price: 48.00 £ | Shipping*: 0.00 £
  • Precision CNC Manufacturing Machining Service Turning Milling Knurling Custom CNC Aluminum Machining
    Precision CNC Manufacturing Machining Service Turning Milling Knurling Custom CNC Aluminum Machining

    Precision CNC Manufacturing Machining Service Turning Milling Knurling Custom CNC Aluminum Machining

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  • What about evolution?

    Evolution is the process by which species of organisms change over time through the process of natural selection, genetic drift, and other mechanisms. It is a fundamental concept in biology and has been supported by a large body of evidence from fields such as genetics, paleontology, and comparative anatomy. Evolution explains the diversity of life on Earth and how species have adapted to their environments over millions of years. It is a well-established scientific theory that has withstood rigorous testing and continues to be a central principle in the study of biology.

  • Can evolution stop?

    Evolution is a continuous process driven by genetic variation, natural selection, and environmental changes. While it is theoretically possible for evolution to slow down or even temporarily stop in a stable environment with little genetic variation, it is unlikely to completely halt. As long as there are factors such as mutations, genetic recombination, and environmental pressures, evolution will continue to shape and change species over time. Therefore, while it may slow down under certain conditions, it is unlikely for evolution to completely stop.

  • Will evolution change?

    Evolution is a continuous process driven by genetic variation, natural selection, and environmental changes. As long as these factors continue to operate, evolution will continue to occur. However, the specific direction and pace of evolution may change in response to new environmental pressures, genetic mutations, and other factors. Therefore, while the fundamental process of evolution is unlikely to change, the specific outcomes and patterns of evolution may vary over time.

  • What is the difference between synthetic evolution and natural evolution?

    Synthetic evolution involves the intentional manipulation of genetic material by humans in a controlled environment, such as in a laboratory setting, to produce desired traits or outcomes. In contrast, natural evolution occurs in nature through the process of natural selection, where organisms with advantageous traits are more likely to survive and reproduce, leading to changes in the genetic makeup of a population over time. While synthetic evolution is directed and guided by human intervention, natural evolution is driven by environmental pressures and random genetic mutations.

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