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200 14$aThe burning saints $ecognition and culture in the fire-walking rituals of the Anastenaria /$fDimitris Xygalatas
210  1$aAbingdon, Oxon :$cRoutledge,$d2014.
215   $axii, 253 p. $cill
225 1 $aReligion, cognition and culture
225  0$aReligion, cognition and culture
300   $aFirst published 2012 by Equinox Publishing Limited, an imprint of Acumen.
311   $a1-84553-976-1 
311   $a1-322-19889-6 
320   $aIncludes bibliographical references (p. 205-238) and index.
327   $a1. Introduction -- 2. Tradition in the making -- 3. The ethnographic setting -- 4. Fire-walking in Agia Eleni -- 5. Knowledge and revelation among the Anastenaria -- 6. Ritual and mind -- 7. Costly rituals -- 8. Arousal, emotion and motivation -- 9. The physiology of high-arousal rituals -- 10. Putting it all together.
410  0$aReligion, cognition and culture.
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200 10$aDiscovering superconductivity$b[electronic resource] $ean investigative approach /$fGren Ireson
210   $aChichester, West Sussex $cWiley$d2012
215   $a1 online resource (187 p.)
300   $aDescription based upon print version of record.
311   $a1-119-99141-2 
311   $a1-119-99140-4 
320   $aIncludes bibliographical references and index.
327   $aDiscovering Superconductivity; Contents; List of Figures; List of Tables; Preface; Acknowledgements; To the Teacher; To the Student; SECTION I Introduction; 1 Resistivity and Conduction in Metals; 1.1 Introduction; 1.2 Resistivity; 1.3 Conduction in Metals; 1.4 Revisiting Ohm's Law; References; 2 A Brief History of Superconductivity; 2.1 Introduction; 2.2 The Beginning: Kwik Nagenoeg Nul; 2.3 1933 - Perfect Diamagnetism?; 2.4 The London Brothers; 2.5 1957 - The BCS Theory; 2.6 1962 - The Josephson Effect; 2.7 1986 - Bednorz and Mu?ller and Oxide Superconductors
327   $a2.8 2003 - Abrikosov, Ginzburg and Leggett - and the Future2.9 Getting Cold Enough; References; SECTION II Superconductivity; 3 An Explanation of Superconductivity?; 3.1 Transition Temperature; 3.2 Two-Fluid Model; 3.3 Critical Field, Critical Current; 3.4 Schawlow and Devlin; 3.5 The London Equation; 3.6 BCS Theory; 3.6.1 The Isotope Effect; 3.6.2 The Energy Gap; 3.7 An Alternative Approach to the Energy Gap; 3.7.1 Electron-Electron Attraction; References; 4 The Meissner-Ochsenfeld Effect; References; 5 Diamagnetic Effects; 5.1 Diamagnetism, Paramagnetism and Ferromagnetism; References
327   $a6 Persistence of Current6.1 Quinn and Ittner; References; 7 Type I and Type II Superconductors; 7.1 Critical Magnetic Field; References; 8 Flux Pinning; 8.1 Vortex and Flux Lines; 8.2 The Original Abrikosov; References; SECTION III Superconducting Materials; 9 Low-Temperature Superconductors; 10 Organic Superconductors; References; 11 High-Temperature Superconductors; 11.1 Magnesium Diboride; 11.2 Transition Temperature of High-Tc Superconductors; References; SECTION IV Applications; 12 Superconducting Wire; 13 Medical Imaging; 13.1 Magnetic Resonance Imaging (MRI)
327   $a13.2 Magnetoencephalography13.2.1 The Josephson Junction Revisited; 13.2.2 Neuronal Currents; References; 14 CERN and the LHC; References; 15 Maglev Trains; Appendices; A The BCS Theory; B Flux Penetration; C The Josephson Junction and the SQUID; D MRI; Generating the MRI Signal; References; E A Note on Superfluidity; F A Note on Safety; Index
330   $a Superconductivity is a quantum phenomenon that manifests itself in materials showing zero electrical resistance below a characteristic temperature resulting in the potential for an electric current to run continually through such a material without the need for a power source. Such materials are used extensively in medical and power applications, e.g. MRI and NMR machines.   Discovering Superconductivity uses a series of practical and investigative activities, which can be used as tutor demonst
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615  0$aSuperconductors.
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