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200 10$aRisk analysis in theory and practice /$fJean-Paul Chavas
205   $a1st ed.
210   $aAmsterdam ;$aBoston $cElsevier/Butterworth Heinemann ;$aSan Diego, Calif. $cElsevier Academic Press$dc2004
215   $a1 online resource (257 p.)
225 1 $aAcademic Press advanced finance series
300   $aDescription based upon print version of record.
311 08$a9781493300259 
311 08$a1493300253 
311 08$a9780121706210 
311 08$a0121706214 
320   $aIncludes bibliographical references (p. 231-235) and index.
327   $aFront Cover; Risk Analysis in Theory and Practice; Copyright Page; Contents; Chapter 1. Introduction; Chapter 2. The Measurement of Risk; Chapter 3. The Expected Utility Model; Chapter 4. The Nature of Risk Preferences; Chapter 5. Stochastic Dominance; Chapter 6. Mean-Variance Analysis; Chapter 7. Alternative Models of Risk Behavior; Chapter 8. Production Decisions Under Risk; Chapter 9. Portfolio Selection; Chapter 10. Dynamic Decisions Under Risk; Chapter 11. Contract and Policy Design Under Risk; Chapter 12. Contract and Policy Design Under Risk: Applications
327   $aChapter 13. Market StabilizationAppendix A: Probability and Statistics; Appendix B: Optimization; Index
330   $aThe objective of this book is to present this analytical framework and to illustrate how it can be used in the investigation of economic decisions under risk. In a sense, the economics of risk is a difficult subject: it involves understanding human decisions in the absence of perfect information. How do we make decisions when we do not know some of events affecting us? The complexities of our uncertain world and of how humans obtain and process information make this difficult. In spite of these difficulties, much progress has been made. First, probability theory is the corner stone of risk ass
410  0$aAcademic Press advanced finance series.
606   $aRisk$xEconometric models
606   $aUncertainty$xEconometric models
606   $aDecision making$xEconometric models
606   $aRisk$xEconometric models$vProblems, exercises, etc
615  0$aRisk$xEconometric models.
615  0$aUncertainty$xEconometric models.
615  0$aDecision making$xEconometric models.
615  0$aRisk$xEconometric models
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700   $aChavas$b Jean-Paul$089219
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040   $aBibl. Interfacoltà T. Pellegrino$bita
082 04$a945
100 1 $aBertolini, Francesco$d<1836-1909>$0294206
245 10$aManuale di Storia Italiana scritto ad uso del corso complementare femminile (già preparatorio alle scuole normali), secondo i programmi approvati col r. Decreto 24 novembre 1895 :$bclasse seconda /$cda Francesco Bertolini
250   $a3. ed. notevolmente modificata
260   $aFirenze :$bBemporad e Figlio,$c1899
300   $a102 p. :$bill. ;$c19 cm
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200 10$aPower electronics design $ea practitioner's guide /$fKeith H. Sueker
205   $a1st edition
210   $aBurlington, MA $cElsevier/Newnes$dc2005
215   $a1 online resource (273 p.)
300   $aIncludes index.
311 08$a9781493303168 
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327   $afront cover; copyright; table of contents; front matter; List of Figures; List of Tables; Preface; body; 1. Electric Power; 1.1. AC versus DC; 1.2. Pivotal Inventions; 1.3. Generation; 1.4. Electric Traction; 1.5. Electric Utilities; 1.6. In-Plant Distribution; 1.7. Emergency Power; 2. Power Apparatus; 2.1. Switchgear; 2.2. Surge Suppression; 2.3. Conductors; 2.4. Capacitors; 2.5. Resistors; 2.6. Fuses; 2.7. Supply Voltages; 2.8. Enclosures; 2.9. Hipot, Corona, and BIL; 2.10. Spacings; 2.11. Metal Oxide Varistors; 2.12. Protective Relays; 3. Analytical Tools; 3.1. Symmetrical Components
327   $a3.2. Per Unit Constants 3.3. Circuit Simulation; 3.4. Simulation Software; 4. Feedback Control Systems; 4.1. Basics; 4.2. Amplitude Responses; 4.3. Phase Responses; 4.4. PID Regulators; 4.5. Nested Control Loops; 5. Transients; 5.1. Line Disturbances; 5.2. Circuit Transients; 5.3. Electromagnetic Interference; 6. Traveling Waves; 6.1. Basics; 6.2. Transient Effects; 6.3. Mitigating Measures; 7. Transformers and Reactors; 7.1. Transformer Basics; 7.2. Construction; 7.3. Insulation Systems; 7.4. Basic Insulation Level; 7.5. Eddy Current Effects; 7.6. Interphase Transformers
327   $a7.7. Transformer Connections 7.8. Reactors; 7.9. Units; 7.10. Cooling; 7.11. Instrument Transformers; 8. Rotating Machines; 8.1. Direct Current Machines; 8.2. Synchronous Machines; 8.3. Induction (Asynchronous) Machines; 8.4. NEMA Designs; 8.5. Frame Types; 8.6. Linear Motors; 9. Rectifiers and Converters; 9.1. Early Rectifiers; 9.2. Mercury Vapor Rectifiers; 9.3. Silicon Diodes--The Semiconductor Age; 9.4. Rectifier Circuits--Single-Phase; 9.5. Rectifier Circuits--Multiphase; 9.6. Commutation; 10. Phase Control; 10.1. The SCR; 10.2. Forward Drop; 10.3. SCR Circuits--AC Switches
327   $a10.4. SCR Motor Starters 10.5. SCR Converters; 10.6. Inversion; 10.7. Gate Drive Circuits; 10.8. Power to the Gates; 10.9. SCR Autotapchangers; 10.10. SCR DC Motor Drives; 10.11. SCR AC Motor Drives; 10.12. Cycloconverters; 11. Series and Parallel Operation; 11.1. Voltage Sharing; 11.2. Current Sharing; 11.3. Forced Sharing; 12. Pulsed Converters; 12.1. Protective Devices; 12.2. Transformers; 12.3. SCRs; 13. Switchmode Systems; 13.1. Pulse Width Modulation; 13.2. Choppers; 13.3. Boost Converters; 13.4. The 'H' Bridge; 13.5. High-Frequency Operation; 13.6. Harmonic Injection
327   $a13.7. Series Bridges14. Power Factor and Harmonics; 14.1. Power Factor; 14.2. Harmonics; 14.3. Fourier Transforms; 14.4. Interactions with the Utility; 14.5. Telephone Influence Factor; 14.6. Distortion Limits; 14.7. Zero-Switching; 15. Thermal Considerations; 15.1. Heat and Heat Transfer; 15.2. Air Cooling; 15.3. Water Cooling; 15.4. Device Cooling; 15.5. Semiconductor Mounting; 16. Power Electronics Applications; 16.1. Motor Drives and SCR Starters; 16.2. Glass Industry; 16.3. Foundry Operations; 16.4. Plasma Arcs and Arc Furnaces; 16.5. Electrochemical Supplies; 16.6. Cycloconverters
327   $a16.7. Extremely Low-Frequency Communications
330   $aThis book serves as an invaluable reference to Power Electronics Design, covering the application of high-power semiconductor technology to large motor drives, power supplies, power conversion equipment, electric utility auxiliaries and numerous other applications.Design engineers, design drafters and technicians in the power electronics industry, as well as students studying power electronics in various contexts, will benefit from Keith Sueker's decades of experience in the industry. With this experience, the author has put the overall power electronics design process in the context o
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606   $aElectronics$xDesign and construction
615  0$aPower electronics$xDesign and construction.
615  0$aElectronics$xDesign and construction.
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