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  • Physics and Technology for Engineers : Understanding Materials and Sustainability
    Physics and Technology for Engineers : Understanding Materials and Sustainability

    This textbook covers the physics of engineering materials and the latest technologies used in modern engineering projects.It has been designed for use as a reference book and course material for undergraduate engineering students.The book was born out of the need for a comprehensive, balanced, and up-to-date guide for teaching physics to beginning undergraduate engineering students and creating examination papers for technical boards and institutes.The text is divided into ten chapters, each with its specific objectives and features.The topics covered include the classification of engineering materials, atomic structure, electrical and magnetic behavior of solids, quantum mechanics, laser technology, nanomaterials, and sustainable development. Authored by a physicist with over 40 years of teaching experience, this richly-illustrated textbook features an abundance of self-assessment questions, solved examples, and a variety of chapter-end questions with detailed answers.The textbook starts from the very basics and is developed to the desired level, thus making it ideal as standalone course material.

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  • Fashion and Environmental Sustainability : Entrepreneurship, Innovation and Technology
    Fashion and Environmental Sustainability : Entrepreneurship, Innovation and Technology

    The wide range of topics that the book covers are organised into sections reflecting a cradle to grave view of how entrepreneurial, innovative, and tech-savvy approaches can advance environmental sustainability in the fashion sector.These sections include: sustainable materials; innovation in design, range planning and product development; sustainable innovations in fashion supply chains; sustainable innovations in fashion retail and marketing; sustainable alternatives for end-of-life and circular economy initiatives; and more sustainable alternative fashion business models.

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  • Leaning Out of Windows : An Art and Physics Collaboration
    Leaning Out of Windows : An Art and Physics Collaboration

    Art and physics collide in this expansive exploration of how knowledge can be translated across disciplinary communities to activate new aesthetic and scientific perspectives. Leaning Out of Windows shares findings from a six-year collaboration by a group of artists and physicists exploring the connections and differences between the language they use, the means by which they develop knowledge, how that knowledge is visualized, and, ultimately, how they seek to understand the universe.Physicists from TRIUMF, Canada's particle physics accelerator, presented key concepts in the physics of Antimatter, Emergence, and In/visible Forces to artists convened by Emily Carr University of Art + Design; the participants then generated conversations, process drawings, diagrams, field notes, and works of art.The "wondrous back-and-forth" of this process allowed both scientists and artists to, as Koenig and Cutler describe, "lean out of our respective fields of inquiry and inhabit the infinite spaces of not knowing."From this leaning into uncertainty comes a rich array of work towards furthering the shared project of artists and scientists in shaping cultural understandings of the universe: Otoniya J.Okot Bitek reflects on the invisible forces of power; Jess H.Brewer contemplates emergence, free will, and magic; Mimi Gellman looks at the resonances between Indigenous Knowledge and physics; Jeff Derksen finds Hegelian dialectics within the matter–antimatter process; Sanem Güvenç considers the possibilities of the void; Nirmal Raj ponders the universe's "special moment of light and visibility" we happen to inhabit; Sadira Rodrigues eschews the artificiality of the lab for a “boring berm of dirt”; and Marina Roy metaphorically turns beams of stable and radioactive gold particles into art of pigments, oils, liquid plastic, and wood.Combined with additional essays, diagrams, and artworks, these texts and artworks live in the intersection of disparate fields that nonetheless share a deep curiosity of the world and our place within it, and a dedication to building and sharing knowledges.

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  • Ultrasound Physics and Technology : How, Why and When
    Ultrasound Physics and Technology : How, Why and When

    Written for health practitioners and students new to medical ultrasound, this book provides all the basic physics and technological knowledge they need in order to practise ultrasound effectively, including safety aspects of ultrasound, quality assurance and the latest techniques and developments. Multiple choice questions for self-assessment and as a revision aidChapter on terminology with explanatory paragraphs of words and phrases used in diagnostic ultrasoundTroubleshooting guide - common problems and their solutions explored

    Price: 49.99 £ | Shipping*: 0.00 £
  • What is efficiency in physics?

    Efficiency in physics refers to the ratio of useful work output to the total energy input in a system. It is a measure of how well a system can convert input energy into useful output energy. A system with high efficiency will waste less energy and be more effective in its operation. Efficiency is an important concept in physics as it helps in evaluating the performance of various systems and technologies.

  • How is efficiency calculated in physics?

    Efficiency in physics is calculated by dividing the useful output of energy or work by the total input of energy or work, and then multiplying by 100 to express it as a percentage. The formula for efficiency is: Efficiency = (useful output / total input) x 100%. This calculation helps to determine how well a system or device converts input energy into useful output energy, with a higher efficiency indicating a more effective conversion process.

  • How do you calculate efficiency in physics?

    Efficiency in physics is calculated by dividing the useful output of energy or work by the total input of energy or work, and then multiplying the result by 100 to express it as a percentage. The formula for efficiency is: Efficiency = (useful output / total input) x 100%. This calculation helps to determine how well a system or device converts input energy into useful output energy, with a higher efficiency indicating a more effective conversion process.

  • What is efficiency in 10th grade physics?

    Efficiency in 10th grade physics refers to the ratio of useful work output to the total work input in a system. It is a measure of how well a system can convert input energy into useful output energy. Efficiency is usually expressed as a percentage and is an important concept in understanding the effectiveness of machines and processes. In physics, efficiency is often calculated using the formula: Efficiency = (useful energy output / total energy input) x 100%.

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  • University Physics with Modern Physics Technology Update, Volume 1 (Chs. 1-20): Pearson New International Edition
    University Physics with Modern Physics Technology Update, Volume 1 (Chs. 1-20): Pearson New International Edition

    University Physics with Modern Physics, Technology Update, Thirteenth Edition continues to set the benchmark for clarity and rigor combined with effective teaching and research-based innovation. The Thirteenth Edition Technology Update contains QR codes throughout the textbook, enabling students to use their smartphone or tablet to instantly watch interactive videos about relevant demonstrations or problem-solving strategies. University Physics is known for its uniquely broad, deep, and thoughtful set of worked examples—key tools for developing both physical understanding and problem-solving skills.The Thirteenth Edition revises all the Examples and Problem-solving Strategies to be more concise and direct while maintaining the Twelfth Edition's consistent, structured approach and strong focus on modeling as well as math.To help students tackle challenging as well as routine problems, the Thirteenth Edition adds Bridging Problems to each chapter, which pose a difficult, multiconcept problem and provide a skeleton solution guide in the form of questions and hints. The text's rich problem sets–developed and refined over six decades–are upgraded to include larger numbers of problems that are biomedically oriented or require calculus.The problem-set revision is driven by detailed student-performance data gathered nationally through MasteringPhysics®, making it possible to fine-tune the reliability, effectiveness, and difficulty of individual problems. Complementing the clear and accessible text, the figures use a simple graphic style that focuses on the physics.They also incorporate explanatory annotations–a technique demonstrated to enhance learning. This package consists of: University Physics with Modern Physics Technology Update, Volume 1 (Chapters 1-20), Thirteenth Edition

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  • Physics
    Physics

    Written in the fourth century BCE by Greek philosopher and scientist Aristotle, Physics sets out to define the principles and causes of change, movement, or motion.For 2,000 years ― until discoveries by Galileo, Newton, and other scientists ― this treatise was the primary source for explanations of falling rocks, rising flames, the circulation of air, and other physical phenomena.It remains a foundational work of modern science and philosophy.

    Price: 8.99 £ | Shipping*: 3.99 £
  • University Physics with Modern Physics ISE
    University Physics with Modern Physics ISE

    For instructors looking to engage students and enhance their problem-solving skills, choosing Bauer/Westfall’s University Physics, 3e, offers student-friendly, accessible content, tools, and resources that develop high-level problem-solving and critical thinking skills. University Physics with Modern Physics weaves exciting, contemporary physics throughout the text with coverage of the most recent research by the authors and others in areas such as energy, medicine, and the environment.These contemporary topics are explained in a way that your students will find real, interesting, and motivating. The new edition of University Physics with Modern Physics is also available in McGraw Hill Connect, featuring SmartBook 2.0, Virtual Labs for Physics, and more!

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  • Wind Turbine Icing Physics and Anti-/De-Icing Technology
    Wind Turbine Icing Physics and Anti-/De-Icing Technology

    Wind Turbine Icing Physics and Anti-/De-Icing Technology gives a comprehensive update of research on the underlying physics pertinent to wind turbine icing and the development of various effective and robust anti-/de-icing technology for wind turbine icing mitigation.The book introduces the most recent research results derived from both laboratory studies and field experiments.Specifically, the research results based on field measurement campaigns to quantify the characteristics of the ice structures accreted over the blades surfaces of utility-scale wind turbines by using a Supervisory Control and Data Acquisition (SCADA) system and an Unmanned-Aerial-Vehicle (UAV) equipped with a high-resolution digital camera are also introduced. In addition, comprehensive lab experimental studies are explored, along with a suite of advanced flow diagnostic techniques, a detailed overview of the improvements, and the advantages and disadvantages of state-of-the-art ice mitigation strategies.This new addition to the Wind Energy Engineering series will be useful to all researchers and industry professionals who address icing issues through testing, research and industrial innovation.

    Price: 127.00 £ | Shipping*: 0.00 £
  • What is the overall efficiency in physics?

    Overall efficiency in physics refers to the ratio of useful work output to the total energy input in a system. It is a measure of how well a system converts input energy into useful output energy. In other words, it quantifies how effectively a system can accomplish its intended task while minimizing energy waste. Overall efficiency is an important concept in physics and engineering, as it helps in evaluating the performance of various systems and devices.

  • What is task 2 about efficiency in physics?

    Task 2 about efficiency in physics involves calculating the efficiency of a machine or process. Efficiency is a measure of how well a system converts input energy into useful output energy. In physics, efficiency is often calculated using the formula: Efficiency = (useful energy output / total energy input) x 100%. This task may require students to analyze the input and output energies of a given system and calculate its efficiency.

  • What is the efficiency in 10th grade physics?

    Efficiency in 10th grade physics refers to the ratio of useful work output to the total energy input in a system. It is a measure of how well a system converts input energy into useful output energy. Efficiency is typically calculated as a percentage and is an important concept in understanding the performance of machines and systems. Students in 10th grade physics learn about efficiency in the context of simple machines, energy transformations, and the conservation of energy principles.

  • What is the difference between physics and technology?

    Physics is a branch of science that deals with the study of matter, energy, and the fundamental forces of nature. It seeks to understand the underlying principles that govern the natural world. On the other hand, technology is the application of scientific knowledge for practical purposes. It involves using the principles discovered through physics to create tools, machines, and systems that improve our daily lives. In essence, physics is the study of the natural world, while technology is the practical application of that knowledge.

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