Python for Finance - Second Edition. by Yan, Yuxing

Table of Contents: “…Generating random numbers from a standard normal distribution -- Drawing random samples from a normal distribution -- Generating random numbers with a seed -- Random numbers from a normal distribution -- Histogram for a normal distribution -- Graphical presentation of a lognormal distribution -- Generating random numbers from a uniform distribution -- Using simulation to estimate the pi value -- Generating random numbers from a Poisson distribution -- Selecting m stocks randomly from n given stocks -- With/without replacements -- Distribution of annual returns -- Simulation of stock price movements -- Graphical presentation of stock prices at options' maturity dates -- Replicating a Black-Scholes-Merton call using simulation -- Exotic option #1 -- using the Monte Carlo Simulation to price average -- Exotic option #2 -- pricing barrier options using the Monte Carlo Simulation -- Liking two methods for VaR using simulation -- Capital budgeting with Monte Carlo Simulation -- Python SimPy module -- Comparison between two social policies -- basic income and basic job -- Finding an efficient frontier based on two stocks by using simulation -- Constructing an efficient frontier with n stocks -- Long-term return forecasting -- Efficiency, Quasi-Monte Carlo, and Sobol sequences -- Appendix A -- data case #8 -- Monte Carlo Simulation and blackjack -- References -- Exercises -- Summary -- Chapter 13: Credit Risk Analysis -- Introduction to credit risk analysis -- Credit rating -- Credit spread -- YIELD of AAA-rated bond, Altman Z-score -- Using the KMV model to estimate the market value of total assets and its volatility -- Term structure of interest rate -- Distance to default -- Credit default swap -- Appendix A -- data case #8 -- predicting bankruptcy by using Z-score -- References -- Exercises -- Summary -- Chapter 14: Exotic Options.…”
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Contes des quatre croisées : Kont lé kat kwazé. by Mauvois, Georges

Table of Contents: “…Intro -- Table des matières -- Préface -- Première partieContesdes Quatre Croisées -- Tout ce qui traîne est au chien -- La poule qui vantait son bouillon -- Le faiseur de pluies -- La guerre des crabes -- La queue du boeuf ne lui sert pas qu'une fois -- Merle et cochon bons amis -- Crabe n'a plus de tête, à cause de son bon coeur -- La mort du brigo fait du bien au soldat -- Il faut de bons pieds quand le corps est mauvais -- La vieille et le trésor -- Le premier arrivé boit la bonne eau -- Choisis bien ta couleur -- Espoir de papayer mâle -- Sous le règne de Colibri 1er -- Didine et Pipiri devant le juge -- Grive et merle sont ennemis jurés -- Une cuiller pour le migan -- Il est chien, mais ses dents sont blanches -- Méfions-nous du merle -- Chien sait pourquoi il ne parle pas -- Beau boucaut, mauvaise morue -- Le mal du roi -- Si chien et chat s'aiment, le maître est fichu -- Le matou noir -- La poule et le ravet -- La corde du bourreau casse, pas celle de la famille -- Fourmi tua Boeuf -- Le pied d'argent -- Les deux poules -- Chien de Jeannot connaît Jeannot -- Le pauvre n'est pas regardant -- Un cadeau du bon Dieu : la « torche » -- Deux argents ne sont jamais ennemis -- Ti-cochon et sa maman -- Plus nu tu es, plus chien te hale -- Il faut entendre les deux cloches -- T'on Gilmane -- Gardons-nous d'épouser les querelles du chien -- Le cueilleur de cocos -- Léger comme le coton -- Parole de vache, parole de sage -- Sois l'ami du chien, mais surveille ton canari -- Le chien, les poules et les bananes jaunes -- Dès avant Lapin, Clapier était là -- Quand son maître pète, Chien doit sortir -- Balai neuf balaie bien -- Bonjour ne cuit pas -- Dent n'est pas coeur -- Lavons-nous l'un l'autre -- Chien n'aime pas qu'on le commande -- Un grand remède -- Se reposer debout n'est pas se reposer -- Les deux mâles crabes -- Petits chemins mènent loin.…”
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Vibration Control of Active Structures An Introduction by Preumont, André

Table of Contents: “….- 10.8.2 Lead compensator.- 10.8.3 PI compensator.- 10.8.4 Lag compensator.- 10.8.5 PID compensator.- 10.9 Multivariable systems.- 10.9.1 Performance specification.- 10.9.2 Small gain theorem.- 10.9.3 Stability robustness tests.- 10.9.4 Residual dynamics.- 10.10References.- 10.11Problems.- 11 Optimal control.- 11.1 Introduction.- 11.2 Quadratic integral.- 11.3 Deterministic LQR.- 11.4 Stochastic response to a white noise.- 11.4.1 Remark.- 11.5 Stochastic LQR.- 11.6 Asymptotic behavior of the closed-loop.- 11.7 Prescribed degree of stability -- 11.8 Gain and phase margins of the LQR.- 11.9 Full state observer.- 11.9.1 Covariance of the reconstruction error.- 11.10Kalman-Bucy Filter (KBF).- 11.11Linear Quadratic Gaussian (LQG).- 11.12Duality.- 11.13Spillover.- 11.13.1Spillover reduction.- 11.14Loop Transfer Recovery (LTR).- 11.15Integral control with state feedback.- 11.16Frequency shaping.- 11.16.1Frequency-shaped cost functionals.- 11.16.2Noise model ..- 11.17References.- 11.18Problems.- 12 Controllability and Observability.- 12.1 Introduction.- 12.1.1 Definitions.- 12.2 Controllability and observability matrices.- 12.3 Examples.- 12.3.1 Cart with two inverted pendulums.- 12.3.2 Double inverted pendulum.- 12.3.3 Two d.o.f. oscillator.- 12.4 State transformation.- 12.4.1 Control canonical form.- 12.4.2 Left and right eigenvectors.- 12.4.3 Diagonal form.- 12.5 PBH test.- 12.6 Residues.- 12.7 Example.- 12.8 Sensitivity.- 12.9 Controllability and observability Gramians.- 12.10Internally balanced coordinates.- 12.11Model reduction.- 12.11.1Transfer equivalent realization.- 12.11.2Internally balanced realization.- 12.11.3Example.- 12.12References.- 12.13Problems.- 13 Stability.- 13.1 Introduction.- 13.1.1 Phase portrait.- 13.2 Linear systems.- 13.2.1 Routh-Hurwitz criterion.- 13.3 Lyapunov's direct method.- 13.3.1 Introductory example.- 13.3.2 Stability theorem.- 13.3.3 Asymptotic stability theorem.- 13.3.4 Lasalle's theorem.- 13.3.5 Geometric interpretation.- 13.3.6 Instability theorem.- 13.4 Lyapunov functions for linear systems.- 13.5 Lyapunov's indirect method ..- 13.6 An application to controller design.- 13.7 Energy absorbing controls.- 13.8 References.- 13.9 Problems.- 14 Applications.- 14.1 Digital implementation.- 14.1.1 Sampling, aliasing and prefiltering.- 14.1.2 Zero-order hold, computational delay.- 14.1.3 Quantization.- 14.1.4 Discretization of a continuous controller.- 14.2 Active damping of a truss structure.- 14.2.1 Actuator placement.- 14.2.2 Implementation, experimental results.- 14.3 Active damping generic interface.- 14.3.1 Active damping.- 14.3.2 Experiment.- 14.3.3 Pointing and position control.- 14.4 Active damping of a plate.- 14.4.1 Control design.- 14.5 Active damping of a stiff beam.- 14.5.1 System design.- 14.6 The HAC/LAC strategy.- 14.6.1 Wide-band position control.- 14.6.2 Compensator design.- 14.6.3 Results.- 14.7 Vibroacoustics: Volume displacement sensors.- 14.7.1 QWSIS sensor.- 14.7.2 Discrete array sensor.- 14.7.3 Spatial aliasing.- 14.7.4 Distributed sensor.- 14.8 References.- 14.9 Problems.- 5 Tendon Control of Cable Structures.- 15.1 Introduction.- 15.2 Tendon control of strings and cables.- 15.3 Active damping strategy.- 15.4 Basic Experiment.- 15.5 Linear theory of decentralized active damping.- 15.6 Guyed truss experiment.- 15.7 Micro Precision Interferometer testbed.- 15.8 Free floating truss experiment.- .…”
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Encyclopedia of computer science and technology by Henderson, Harry, 1951-

Table of Contents: “…Nanotechnology -- Natural language processing -- Near field communication (NFC) -- Negroponte, Nicholas -- Net neutrality -- Etiquette in the digital world -- Netnews and newsgroups -- Network (computer science) -- Networked storage -- Neumann, John von -- Neural interfaces -- Neural network -- Nonprocedural languages -- Numeric data -- Object-oriented programming (OOP) -- Office automation -- Office suites (software) -- Omidyar, Pierre -- Online advertising -- Online auctions -- Online chat -- Online frauds and scams -- Online gambling -- Online games -- Online investing -- Online job searching and recruiting -- Online music and video distribution -- Online reputation -- Online research -- Online services -- Ontologies and data models -- Open-source movement -- Operating system (OS) -- Operators and expressions -- Optical character recognition (OCR) -- Optical computing -- Oracle Corporation -- OS X -- Package manager (software) -- Page, Larry -- Papert, Seymour -- Parallel port -- Parsing -- Pascal -- Pattern recognition -- Penetration testing -- Perl -- Personal computer (PC) -- Personal digital assistant (PDA) -- Personal health information management -- Personal information manager (PIM) -- Philosophical and spiritual aspects of computing -- Phishing and spoofing -- PHP -- PL/I -- Plug and play -- Plug-in -- Podcasting -- Pointers and indirection -- Political activism and the Internet -- Popular culture and computing -- Portable document format (PDF) -- Posthumanism and Transhumanism -- PostScript -- Power grid and computing -- Power management -- Powered exoskeleton -- PowerShell (Microsoft) -- Predictive analytics -- Presentation software -- Printers -- Privacy in the digital age -- Privacy policy -- Procedures and functions -- Program library -- Programming as a profession -- Programming environment -- Programming languages -- Project management software -- Prolog -- Pseudocode -- Psychology of computing -- Punched cards and paper tape -- Python -- Quantum computing -- Queue -- R (Programming Language) -- Radio frequency identification (RFID) -- Random number generation -- Raspberry Pi -- Raymond, Eric -- Real-time processing -- Recursion -- Reduced instruction set computer (RISC) -- Redundant array of inexpensive disks (RAID) -- Regular expression -- Representational state transfer (REST) -- Research laboratories in computing -- Reverse engineering -- Rheingold, Howard -- Rich Text Format (RTF) -- Risks of computing -- Ritchie, Dennis -- Robotics -- RPG -- RSS -- Ruby -- Rust (programming language) -- Sandbox -- SAP -- Satellite Internet service -- Scala (programming language) -- Scanner -- Scheduling and prioritization in computing -- Science fiction and computing -- Scientific computing applications -- Scripting languages -- Search engine -- Semantic web -- Senior citizens and computing -- Serial port -- Service-oriented architecture (SOA) -- Shannon, Claude E. -- Shareware and freeware -- Sharing economy -- Shell (computer science) -- Simonyi, Charles -- Simula -- Simulation -- Smalltalk -- Smart buildings and homes -- Smart card -- Smart TV -- Smart watch -- Smartphone -- Snowden, Edward -- SOAP -- Social graph -- Social impact of computing -- Social networking -- Social network games -- Social robots -- Social sciences and computing -- Software agent -- Software engineering -- Software piracy and counterfeiting -- Software quality assurance -- Solid state drive -- Sony -- Sorting and searching -- Sound file formats -- Space exploration and computers -- Spafford, Eugene H. -- Spam -- Speech recognition and synthesis -- Spreadsheet -- Spyware and adware -- Stack -- Stallman, Richard -- Standards in computing -- Statistics and computing -- Stoll, Clifford -- Streaming (computer science) -- Stroustrup, Bjarne -- Structured programming -- Structured query language (SQL) -- Sun Microsystems -- Supercomputer -- Supply chain management -- Surveillance capitalism -- Surveillance technologies -- Sutherland, Ivan Edward -- Swartz, Aaron -- Swift (programming language) -- System administrator -- Systems analyst -- Systems programming…”
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The smart cyber ecosystem for sustainable development

Table of Contents: “…Kayasth -- 1.1 Introduction -- 1.1.1 Characteristics of IoT -- 1.1.2 IoT Architecture -- 1.1.3 Merits and Demerits of IoT -- 1.2 Technological Evolution Toward IoT -- 1.3 IoT-Associated Technology -- 1.4 Interoperability in IoT -- 1.5 Programming Technologies in IoT -- 1.5.1 Arduino -- 1.5.2 Raspberry Pi -- 1.5.3 Python -- 1.6 IoT Applications -- Conclusion -- References -- 2 AI for Wireless Network Optimization: Challenges and Opportunities 25 Murad Abusubaih -- 2.1 Introduction to AI -- 2.2 Self-Organizing Networks -- 2.2.1 Operation Principle of Self-Organizing Networks -- 2.2.2 Self-Configuration -- 2.2.3 Self-Optimization -- 2.2.4 Self-Healing -- 2.2.5 Key Performance Indicators -- 2.2.6 SON Functions -- 2.3 Cognitive Networks -- 2.4 Introduction to Machine Learning -- 2.4.1 ML Types -- 2.4.2 Components of ML Algorithms -- 2.4.3 How do Machines Learn? …”
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Pensée et Spiritualité : Recueil de pensées. by Lubich, Chiara

Table of Contents: “…Un Dieu qui est AmourLâ#x80;#x99;essentiel aujourdâ#x80;#x99;hui; Câ#x80;#x99;est ainsi que je tâ#x80;#x99;ai trouvé; Dieu est en toi; Aime celui qui est lâ#x80;#x99;Amour; Dieu comme frÃr̈e; Dieu est puissant, il est le Tout-puissant; Personne nâ#x80;#x99;a eu autant de considération pour lâ#x80;#x99;homme; Réflexions : donne-moi de tâ#x80;#x99;aimer; Vivre au-dedans; Réflexions : avec le Tout-puissant; Câ#x80;#x99;est Toi qui es, voilà la réalité; Le Â" oui Â" de lâ#x80;#x99;homme à Dieu; Voir avec des yeux neufs; La seule qui soit bonne; Travail à deux; Sainteté populaire; Parfum de solennité; Les pieds sur terre; Le temps me fuit, rapide.…”
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<>.

قلاع العقل /

Table of Contents: “…. -- (3ebOeI (B -- (3haGI (B (3LjQaGS (B (3ef (B (3HGShJTjS, (B (3MGce (B (3WHQjI, (B (3SfI (B 501/1108 -- (3SdN (B (3aQhI (B (3QCS (B (3LjQaGS (B -- (3GSJYeGd (B (3LeLeI (B (3LjQaGS (B (3cEfGAm (B (3ddTQGH (B -- (3edGMXGJ (B (3NJGejI (B -- (3GdMhGTj (B -- 20. (3GdUahjhf (B (3h"GdCYhGf": (B (3QaY (B (3GdUhJ (B -- (3hUhd (B (3GdCYhGf (B -- " (3CUhGJ (B (3ef (B (3JMJ" (B (3UahjI (B -- (3CReGJ (B (3GbJUGOjI (B -- (3GLJeGYjI (B (3hSjGSjI (B (3aj (B (3YghO (B (3NdaGA (B (3YHGS (B (3GdChd (B -- (3GdU`QGY (B (3Gd`QhMj (B -- (3LOd (B (3efGhF (B (3ddUhajI (B (3ef (B (3SJjfjGJ (B (3GdbQf (B (3GdMGOj (B (3YTQ (B (3GdgLQj/ (B (3NeSjfjGJ (B (3GdbQf (B (3GdSGHY (B (3YTQ (B (3GdejdGOj: (B (3fGaPI (B (3Ydi (B (3eG (B (3gh (B " (3TYHj" (B -- (3NdGUI (B (3hNGJeI (B -- (3GdMhGTj (B -- 21. (3GdJhajbjI (B (3aj (B (3NdGa (B (3CNHGQj (B -- (3CUhdj: (B (3Jbjje (B (3jhSa (B (3GdHMQGfj (B (3dcJGH (B (3YHO (B (3Gddg (B (3GdSeGgjLj (B " (3eofjI (B (3GdeeGQSjf" (B -- (3ebOeI (B -- (3jhSa (B (3GdHMQGfj (B (3hGdfRGY (B (3GdENHGQj (B -- (3GdCUhdj (B -- (3JYdjb (B (3Ydi (B (3GdGNJdGaGJ (B (3GdJj (B (3COQLgG (B (3GdHMQGfj (B (3Hjf (B (3GdENHGQjjf (B (3hGdCUhdjjf (B -- (3edMb (B -- (3GdMhGTj (B -- (3GdeUGOQ (B (3hGdeQGLY (B -- (3GdGNJUGQGJ (B -- (3GdeUGOQ (B (3GdChdjI (B Primary Sources -- (3GdeUGOQ (B (3GdKGfhjI (B Secondary sources -- (3agQS (B (3GdCYdGe (B -- (3agQS (B (3GdCeGcf (B -- (3fHPI (B (3Yf (B (3GdeDda. …”
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Encyclopedia of the human brain

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Bogatin's practical guide to prototype breadboard and PCB design by Bogatin, Eric

Table of Contents: “…-- 2.2 Physical Design of a PCB -- 2.3 Vias Technologies -- 2.4 Thermal and Thermal Relief Vias -- 2.5 Other Layers -- 2.6 The Soldermask Layer -- 2.7 Surface Finishes -- 2.8 The Silk Screen -- 2.9 What the Fab Vendor Needs -- 2.10 Practice Questions -- Chapter 3 Signal Integrity and Interconnects -- 3.1 Transparent Interconnects -- 3.2 When Interconnets are NOT Transparent -- 3.3 Where Signal Integrity Lives -- 3.4 Six Categories of Electrical Noise -- 3.5 Families of SI/PI/EMI Problems -- 3.6 In Principle and In Practice -- 3.7 Net Classes and Interconnect Problems -- 3.9 Design for X -- 3.10 Practice Questions -- Chapter 4 Electrical Properties of Interconnects -- 4.1 Ideal vs Real Circuit Elements -- 4.2 Equivalent Electrical Circuit Models -- 4.3 Parasitic Extraction of R, L, and C Elements -- 4.4 Describing Cross Talk -- 4.5 Estimating Mutual Inductance -- 4.6 Training Your Engineer's Mind's Eye -- 4.7 Electrically Long Interconnects -- 4.8 Electrically Short and Electrically Long -- 4.9 Practice Questions -- Chapter 5 Trace Width Considerations: Max Current -- 5.1 Best design practices -- 5.2 Minimum Fabrication Trace Width -- 5.3 Copper Thickness as Ounces of Copper -- 5.4 Maximum Current Handling of a Trace -- 5.5 Maximum Current Through a Via.…”
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Medical statistics from scratch : an introduction for health professionals by Bowers, David, 1938-

Table of Contents: “…Counting models: Poisson regression -- Preamble -- Poisson regression -- The Poisson regression equation -- Estimating pi and 13, with the estimators b0 and b1 -- Interpreting the estimated coefficients of a Poisson regression, b0 and b1 -- Model building -- variable selection -- Goodness-of-fit -- Zero-inflated Poisson regression -- Negative binomial regression -- Zero-inflated negative binomial regression -- 25. …”
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Fluid mechanics : fundamentals and applications by Çengel, Yunus A.

Table of Contents: “…The Method of Repeating Variables and The Buckingham Pi Theorem -- Historical Spotlight: Persons Honored by Nondimensional Parameters -- 7-5. …”


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Classical Chinese literature

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High Performance Control of AC Drives with Matlab by Abu-Rub, Haithem

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Fluid Mechanics with Engineering Applications by Finnemore, E. John, Franzini, Joseph B.

Table of Contents: “…A The McGraw-Hill Series in Civil and Environmental Engineering -- B About the Authors -- C Dedication -- D Preface -- E List of Symbols -- F List of Abbreviations -- 1 Introduction -- 1.0 Chapter Preliminaries -- 1.1 Scope of Fluid Mechanics -- 1.2 Historical Sketch of the Development of Fluid Mechanics -- 1.3 The Book, Its Contents, and How to Best Study Fluid Mechanics -- 1.4 Approach to Problem Solving -- 1.5 Dimensions and Units -- Exercises -- 2 Properties of Fluids -- 2.0 Chapter Preliminaries -- 2.1 Distinction Between a Solid and a Fluid -- 2.2 Distinction Between a Gas and a Liquid -- 2.3 Density, Specific Weight, Specific Volume, and Specific Gravity -- Exercises -- 2.4 Compressible and Incompressible Fluids -- 2.5 Compressibility of Liquids -- Exercises -- 2.6 Specific Weight of Liquids -- Exercises -- 2.7 Property Relations for Perfect Gases -- Exercises -- 2.8 Compressibility of Perfect Gases -- Exercises -- 2.9 Standard Atmosphere -- 2.10 Ideal Fluid -- 2.11 Viscosity -- Exercises -- 2.12 Surface Tension -- Exercises -- 2.13 Vapor Pressure of Liquids -- Exercises -- Problems -- 3 Fluid Statics -- 3.0 Chapter Preliminaries -- 3.1 Pressure at a Point the Same in all Directions -- 3.2 Variation of Pressure in a Static Fluid -- Exercises -- 3.3 Pressure Expressed in Height of Fluid -- Exercises -- 3.4 Absolute and Gage Pressures -- Exercises -- 3.5 Measurement of Pressure -- Exercises -- 3.6 Force on a Plane Area -- 3.7 Center of Pressure -- Exercises -- 3.8 Force on a Curved Surface -- Exercises -- 3.9 Buoyancy and Stability of Submerged and Floating Bodies -- Exercises -- 3.10 Liquid Masses Subjected to Acceleration -- Exercises -- Problems -- 4 Basics of Fluid Flow -- 4.0 Chapter Preliminaries -- 4.1 Types of Flow -- 4.2 Laminar and Turbulent Flow -- 4.3 Steady Flow and Uniform Flow -- Exercise -- 4.4 Path Lines, Streamlines, and Streak Lines -- 4.5 Flow Rate and Mean Velocity -- Exercises -- 4.6 Fluid System and Control Volume -- 4.7 Equation of Continuity -- Exercises -- 4.8 One-, Two-, and Three-Dimensional Flow -- 4.9 The Flow Net -- 4.10 Use and Limitations of the Flow Net -- Exercises -- 4.11 Frame of Reference in Flow Problems -- 4.12 Velocity and Acceleration in Steady Flow -- Exercises -- 4.13 Velocity and Acceleration in Unsteady Flow -- Exercises -- Problems -- 5 Energy in Steady Flow -- 5.0 Chapter Preliminaries -- 5.1 Energies of a Flowing Fluid -- 5.1.1 Kinetic Energy -- 5.1.2 Potential Energy -- 5.1.3 Pressure Head -- 5.1.4 Internal Energy -- Exercises -- 5.2 Equation for Steady Motion of an Ideal Fluid Along a Streamline, and Bernoulli's Theorem -- 5.2.1 Compressible Fluid -- 5.2.2 Incompressible Fluid -- Exercises -- 5.3 Equation for Steady Motion of a Real Fluid Along a Streamline -- 5.3.1 Compressible Fluid -- 5.3.2 Incompressible Fluid -- Exercises -- 5.4 Pressure in Fluid Flow -- 5.4.1 Pressure in Conduits of Uniform Cross Section -- 5.4.2 Static Pressure -- 5.4.3 Stagnation Pressure -- Exercises -- 5.5 General Energy Equation for Steady Flow of any Fluid -- 5.6 Energy Equations for Steady Flow of Incompressible Fluids, Bernoulli's Theorem -- Exercises -- 5.7 Energy Equation for Steady Flow of Compressible Fluids -- Exercises -- 5.8 Head -- 5.9 Power Considerations in Fluid Flow -- Exercises -- 5.10 Cavitation -- Exercises -- 5.11 Definition of Hydraulic Grade Line and Energy Line -- 5.12 Loss of Head at Submerged Discharge -- 5.13 Application of Hydraulic Grade Line and Energy Line -- Exercises -- 5.14 Method of Solution of Liquid Flow Problems -- Exercises -- 5.15 Jet Trajectory -- Exercises -- 5.16 Flow in a Curved Path -- Exercises -- 5.17 Forced or Rotational Vortex -- Exercises -- 5.18 Free or Irrotational Vortex -- Exercises -- Problems -- 6 Momentum and Forces in Fluid Flow -- 6.0 Chapter Preliminaries -- 6.1 Development of the Momentum Principle -- 6.2 Navier-Stokes Equations -- 6.3 Momentum Correction Factor -- Exercises -- 6.4 Applications of the Momentum Principle -- Exercises -- 6.5 Force on Pressure Conduits -- Exercises -- 6.6 Force of a Free Jet on a Stationary Vane or Blade -- Exercises -- 6.7 Moving Vanes: Relation Between Absolute and Relative Velocities -- 6.8 Force of a Jet on One or More Moving Vanes or Blades -- 6.8.1 Single Blade, Moving Parallel to Jet -- 6.8.2 Series of Rotating Blades -- Exercises -- 6.9 Reaction of a Jet -- Exercises -- 6.10 Jet Propulsion -- 6.10.1 Rocket -- 6.10.2 Jet Engine -- Exercises -- 6.11 Rotating Machines: Continuity, Relative Velocities, Torque -- 6.11.1 Continuity -- 6.11.2 Velocity Triangles for Radial Flow -- 6.11.3 Torque -- Exercises -- 6.12 Head Equivalent of Mechanical Work -- 6.13 Flow Through a Rotating Channel -- Exercise -- 6.14 Reaction with Rotation -- Exercises -- 6.15 Momentum Principle Applied to Propellers and Windmills -- Exercises -- Problems -- 7 Similitude and Dimensional Analysis -- 7.0 Chapter Preliminaries -- 7.1 Definition and Uses of Similitude -- 7.2 Geometric Similarity -- 7.3 Kinematic Similarity -- 7.4 Dynamic Similarity -- 7.4.1 Reynolds Number -- 7.4.2 Froude Number -- 7.4.3 Mach Number -- 7.4.4 Weber Number -- 7.4.5 Euler Number -- 7.4.6 Other Dimensionless Numbers -- Exercises -- 7.5 Scale Ratios -- 7.6 Comments on Models -- -- 7.7 Dimensional Analysis -- 7.7.1 Basic Concepts -- 7.7.2 The Pi Theorem -- Exercises -- Problems -- 8 Steady Incompressible Flow in Pressure Conduits -- 8.0 Chapter Preliminaries -- 8.1 Laminar and Turbulent Flow -- 8.2 Critical Reynolds Number -- Exercises -- 8.3 Hydraulic Radius, Hydraulic Diameter -- Exercises -- 8.4 Friction Head Loss in Conduits of Constant Cross Section -- 8.5 Friction in Circular Conduits -- Exercises -- 8.6 Friction in Noncircular Conduits -- Exercises -- 8.7 Laminar Flow in Circular Pipes -- Exercises -- 8.8 Entrance Conditions in Laminar Flow -- Exercises -- 8.9 Turbulent Flow -- 8.9.1 First Expression -- 8.9.2 Second Expression -- Exercises -- 8.10 Viscous Sublayer in Turbulent Flow -- Exercises -- 8.11 Velocity Profile in Turbulent Flow -- Exercises -- 8.12 Pipe Roughness -- Exercises -- 8.13 Chart for Friction Factor -- Exercises -- -- 8.14 Single-Pipe Flow: Solution Basics -- 8.14.1 Governing Equations -- 8.14.2 Solution of Special Cases -- 8.15 Single-Pipe Flow: Solution by Trials -- Exercises -- 8.16 Single-Pipe Flow: Direct Solutions -- Exercises -- 8.17 Single-Pipe Flow: Automated Solutions -- Exercises -- 8.18 Empirical Equations for Single-Pipe Flow -- Exercises -- 8.19 Nonrigorous Head-Loss Equations -- 8.20 Minor Losses in Turbulent Flow -- 8.21 Loss of Head at Entrance -- 8.22 Loss of Head at Submerged Discharge -- 8.22.1 Discharge into Still Water -- 8.22.2 Discharge into Moving Water -- Exercises -- 8.23 Loss Due to Contraction -- 8.23.1 Sudden Contraction -- 8.23.2 Gradual Contraction -- 8.24 Loss Due to Expansion -- 8.24.1 Sudden Expansion -- 8.24.2 Gradual Expansion -- Exercises -- 8.25 Loss in Pipe Fittings -- 8.26 Loss in Bends and Elbows -- Exercises -- 8.27 Single-Pipe Flow with Minor Losses -- Exercises -- 8.28 Pipeline with Pump or Turbine -- Exercises -- 8.29 Branching Pipes -- 8.29.1 Rigorous Solutions -- 8.29.2 Nonrigorous Solutions -- 8.30 Pipes in Series -- 8.31 Pipes in Parallel -- 8.32 Pipe Networks -- 8.33 Further Topics in Pipe Flow -- Problems.…”
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AC electric motors control : advanced design techniques and applications

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Green building, materials and civil engineering : proceedings of the 4th International Conference on Green Building, Materials and Civil Engineering (GBMCE 2014), Hong Kong, 21-22...

Table of Contents: “…Hong -- The calculation methods of property of the parallel composite isolation system / H. Yan and F.M. Pi -- Gas-pressure sintered Si3N4 fabricated by ceramics injection molding / X.F. …”
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Electromagnetic Fields and Waves : Fundamentals of Engineering by Riad, Sedki M., Salama, Iman M.

Table of Contents: “…2A.1 TL Driving Point Impedance and Input Impedance -- 2A.2 Some Special Cases -- Addendum 2B Impedance Matching -- 2B.1 How to Achieve Matching -- 2B.2 L-PI-T Matching Networks -- 2B.3 Stub Matching -- 2B.4 The Quarter Wave Transformer as a Matching Network -- 2B.5 The Half Wave Transformer as a Matching Network -- Addendum 2C The Frequency-Domain Bounce Diagram -- Addendum 2D The Time-Domain Bounce Diagram -- 2D.1 Introduction -- 2D.2 Time-Domain Bounce Diagram for Lossless Lines and Resistive Discontinuities -- 2D.3 Time-Domain Reflectometry and the Bounce Diagram -- 2D.4 Time-Domain Reflectometry for Ideal Step Waveform Excitations -- 2D.5 Time-Domain Reflectometry for Ideal Dirac-Delta Impulse Waveform Excitations -- Addendum 2E The Smith Chart -- 2E.1 Introduction -- 2E.2 Scales on the Smith Chart -- 2E.2.1 The Magnitude of the Reflection Coefficient (|G |) Scale -- 2E.2.2 The Phase Angle of the Reflection Coefficient (?…”
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Lettre à mon frère. by Ligaran

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Le bal de l'opéra by Guézenec, Alfred, 1823-1866

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LA LITTERATURE DE JEUNESSE MIGRANTE : recits d'immigration de l'algerie a la france;recits d'immigration de l'algerie a la france. by SCHNEIDER, ANNE

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