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200 10$aAffected $eOn Becoming Undone and Potentiation /$fby Rick Iedema
205   $a1st ed. 2021.
210   $cSpringer International Publishing$d2021
210  1$aCham :$cSpringer International Publishing :$cImprint: Palgrave Macmillan,$d2021.
215   $a1 online resource (XII, 131 p. 1 illus.) 
300   $aIncludes index.
311 08$a9783030627355 
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330   $a"In this book, Rick Iedema shows with profound analytical precision the existential strength of 'being moved' and being affected. Departing from a life being shattered, the books exposes with the help of Spinoza, Sloterdijk, and others, the many dimensions of 'becoming'. Written during the COVID-19 crisis and extreme bushfires a short distance away, the book is a plea for new 'structures of feeling' and for a new way of doing social science research. The book's argument is that today's complexity and pace of change are too intense to be adequately represented purely by distanced and objectifying analysis. His discussion at the end of the book about potentiation and anthropotechnics shows us the way towards personal and intellectual courage: one that allows uncertainty and nurtures emergent kinds of sense, knowledge and intelligence." - Jessica Mesman, Maastricht University, Maastricht, The Netherlands This book's main message is to advocate for a collaborative, affective, visualised and future-oriented research agenda. The book finds its inspiration in "the chasm [that separates] philosophising about being shattered and thinking that is shattered" (Heidegger 1946, Letter on Humanism). To explore this chasm, the book journeys through a range of psychological and posthuman perspectives on affect and becoming. The aim of this journey is to reconcile shattered thinking-feeling with Spinoza's ethics according to which 'our capacity to be affected determines our capacity to act'. The book elaborates this capacity to become in terms of our uniquely human propensity to experiment with counter-intuitive inversions: in this case, to call to account that which is affected, rather than that which affects. The book will appeal to students and academics working in the fields of alternative research methods, the social sciences, and organisation studies. Rick Iedema is Professor and Director of the Centre for Team-based Practice and Learning in Health Care at King's College London, UK. His main research interests include interprofessional collaboration and communication and service users' involvement in practice development. He has pioneered innovative organisational and healthcare communication research methodologies, including video-reflexive ethnography.
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606   $aManagement
606   $aHealth services administration
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200 00$aMEMS $ea practical guide to design, analysis, and applications /$fedited by Jan G. Korvink and Oliver Paul
210   $aNorwich, NY $cW. Andrew Pub. ;$aHeidelberg, Germany $cSpringer$dc2006
215   $a1 online resource (993 p.)
300   $a"Micro-electro-mechanical systems"--Cover.
311   $a0-8155-1497-2 
320   $aIncludes bibliographical references and index.
327   $aFront Cover; MEMS: A Practical Guide to Design, Analysis, and Applications; Copyright Page; Contents; Foreword; Preface; Chapter 1. Microtransducer Operation; 1.1 Introduction; 1.2 Transduction; 1.3 Microsystem Performance; 1.4 Transducer Operation Techniques; 1.5 Powering Microsystems; References; Chapter 2. Material Properties: Measurement and Data; 2.1 Introduction; 2.2 Measurement Methods; 2.3 Data; References; Chapter 3. MEMS and NEMS Simulation; 3.1 Introduction; 3.2 Simulation Scenario; 3.3 Generic Organization of a Computational Tool; 3.4 Methods for Materials Simulation
327   $a3.5 Computational Methods that Solve PDEs3.6 Design Automation Methods; 3.7 A Simulation Strategy; 3.8 Case Studies; 3.9 Summary; 3.10 Acknowledgments; References; Chapter 4. System-Level Simulation of Microsystems; 4.1 Introduction; 4.2 Behavioral Modeling of MEMS Components; 4.3 Formulation of Equations of Motion; 4.4 Structured Design Tools; 4.5 Conclusions; References; Chapter 5. Thermal-Based Microsensors; 5.1 Introduction; 5.2 Thermoresistors; 5.3 Silicon Diodes and Transistors as Thermal Microsensors; 5.4 Thermoelectric Microsensors
327   $a5.5 CMOS-Compatible Thermal-Based Microsensors and Microactuators5.6 Diagnostic Thermal-Based Microstructures; 5.7 Conclusion; References; Chapter 6. Photon Detectors; 6.1 Introduction; 6.2 Detectors; 6.3 Thin-Film Transistors; 6.4 Pixel Integration; 6.5 Imaging Arrays; 6.6 New Challenges in Large-Area Digital Imaging; References; Chapter 7. Free-Space Optical MEMS; 7.1 Introduction; 7.2 General Discussion of Micromirror Scanners; 7.3 Electrostatic Scanners; 7.4 Scanning Mirrors with Magnetic and Electromagnetic Actuators; 7.5 Micromirror Arrays with Mirror Size =100 Micrometers
327   $a9.5 Magnetoresistors9.6 Magnetodiodes; 9.7 Magnetotransistors and Related Microsensors; 9.8 Magnetic Field-based Functional Multisensors; 9.9 Interfaces and Improvement of Characteristics of Magnetic Microsensors; 9.10 Conclusions and Outlook; References; Chapter 10. Mechanical Microsensors; 10.1 Introduction; 10.2 Inertial Sensors; 10.3 Pressure Sensors; 10.4 Force and Torque Sensors; References; Chapter 11. Semiconductor-Based Chemical Microsensors; 11.1 Introduction; 11.2 Thermodynamics of Chemical Sensing; 11.3 Chemomechanical Sensors; 11.4 Thermal Sensors; 11.5 Optical Sensors
327   $a11.6 Electrochemical Sensors
330   $aDoes MEMS technology offer advantages to your company's products? Will miniature machines on a chip solve your application objectives for o?smaller, better, cheaper, and faster'o? If you are a product development engineer or manager, the decision to design a MEMS device implies having an application and market. This book offers you a practical guide to making this important business decision. Here, both veterans and newcomers to MEMS device design will get advice on evaluating MEMS for their business, followed by guidance on selecting solutions, technologies and design support tools. You will se
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