“…Corticospinal neurons (a.k.a. Betz cells, upper motor neurons) are a key cell type, monosynaptically conveying the output of the cortical circuit to the spinal cord circuits and lower motor neurons. …”

“…The data framework is based on a grid cell structure at a 0.5 x 0.5 decimal degree resolution, covering approximately 10,600 grid cells across 54 African countries, over the period of 1992 to 2014. …”

Tabla de Contenidos: “…Exercise 12.3: Use Simultaneous Constraints -- Make Parametric Changes to Constrained Objects -- Exercise 12.4: Alter Constraint Parameters -- Chapter 13 Working with Layouts and Annotative Objects -- Create Annotative Styles and Objects -- Exercise 13.1: Work with Annotative Text -- Exercise 13.2: Work with Annotative Dimensions -- Create Layouts -- Exercise 13.3: Configure Layouts -- Adjust Floating Viewports -- Exercise 13.4: Work on Layout1 -- Exercise 13.5: Work on Layout2 -- Override Layer Properties in Layout Viewports -- Exercise 13.6: Override Layer Properties -- Draw on Layouts -- Exercise 13.7: Lay Out Geometry -- Chapter 14 Printing and Plot ting -- Configure Output Devices -- Exercise 14.1: Set Up a System Printer -- Exercise 14.2: Set Up an AutoCAD Plotter -- Create Plot Style Tables -- Exercise 14.3: Create a Named Plot Style Table -- Use Plot Style Tables -- Exercise 14.4: Configure New Drawings for Named Plot Style Tables -- Exercise 14.5: Assign Plot Styles by Layer or by Object -- Plot in Model Space -- Exercise 14.6: Plot from Model Space -- Plot Layouts in Paper Space -- Exercise 14.7: Plot from Paper Space -- Export to an Electronic Format -- Exercise 14.8: Export to DWF -- Exercise 14.9: Export to PDF -- Exercise 14.10: Share Design Views -- Chapter 15 Working with Data -- Geolocate Projects -- Exercise 15.1: Geolocate a Drawing -- Import SketchUp Models -- Exercise 15.2: Import a SketchUp Model -- Define Attributes and Blocks -- Exercise 15.3: Define Attributes and a Block -- Insert Attributed Blocks -- Exercise 15.4: Insert Block References with Attributes -- Edit Table Styles and Create Tables -- Exercise 15.5: Alter a Table Style and Make a Table -- Use Fields in Table Cells -- Exercise 15.6: Create Fields -- Edit Table Data -- Exercise 15.7: Alter Table Data -- Chapter 16 Navigating 3D Models -- Use Visual Styles…”

Tabla de Contenidos: “…Predicting drug sensitivity in cell lines -- 3.3. Key features from PLATYPUS models -- 4. …”

Tabla de Contenidos: “…Cover -- Title Page -- Copyright -- Contents -- Preface -- Contributors -- Chapter 1 An Overview of the Modeling of Electrokinetic Remediation -- 1.1 Introduction -- 1.2 Reactive Transport -- 1.2.1 One‐Dimensional Electromigration Model -- 1.2.2 One‐Dimensional Electromigration and Electroosmosis Model -- 1.2.3 One‐Dimensional Electrodialytic Model -- 1.2.4 One‐Dimensional Electroremediation Model Using Nernst‐Planck‐Poisson -- 1.3 Chemical Equilibrium -- 1.4 Models for the Future -- 1.4.1 Combining Chemical Equilibrium and Chemical Reaction Kinetics -- 1.4.2 Multiscale Models -- 1.4.3 Two‐ and Three‐Dimensional Models -- 1.4.4 Multiphysics Modeling -- Acknowledgments -- References -- Chapter 2 Basic Electrochemistry Tools in Environmental Applications -- 2.1 Introduction -- 2.1.1 Electrochemical Half‐Cells -- 2.1.2 Electrode Potential -- 2.1.3 Electrical Double Layer -- 2.1.4 Electrochemical Processes -- 2.1.4.1 Polarization (Overvoltage) -- 2.1.4.2 Slow Chemical Reactions -- 2.2 Basic Bioelectrochemistry and Applications -- 2.3 Industrial Electrochemistry and the Environment -- 2.3.1 Isolation and Purification of Important Metals -- 2.3.2 Production of Important Chemical Intermediates by Electrochemistry -- 2.4 Electrokinetic Phenomena -- 2.4.1 Electroosmosis in Bioremediation -- 2.5 Electrophoresis and Its Application in Bioremediation -- 2.6 Biosensors in Environmental Monitoring -- 2.6.1 What Are Biosensors? …”

Tabla de Contenidos: “…Le tiers secteur traditionnel aux États-Unis -- Nouvelles tendances en matière de financement -- Modalités proches de celles du secteur privé - Stratégies de recettes provenant d'opérations de type commercial et succursales commerciales -- Capitaux à risque socialement responsables -- Tableau 5.2. …”

Tabla de Contenidos: “…Acknowledgments -- Nomenclature -- References -- 2 Nitrogen-Based Hydrogen Storage Systems: A Detailed Overview -- 2.1 Introduction -- 2.2 Amide/Imide Systems -- 2.2.1 Single-Cation Amide/Imide Systems -- 2.2.1.1 Lithium Amide/Imide -- 2.2.1.2 Sodium Amide/Imide -- 2.2.1.3 Magnesium Amide/Imide -- 2.2.1.4 Calcium Amide/Imide -- 2.2.2 Double-Cation Amide/Imide Systems -- 2.2.2.1 Li-Na-N-H -- 2.2.2.2 Li-Mg-N-H -- 2.2.2.3 Other Double-Cation Amides/Imides -- 2.3 Ammonia (NH3) as Hydrogen Storage Media -- 2.3.1 NH3 Synthesis -- 2.3.1.1 Catalytic NH3 Synthesis Using Haber-Bosch Process -- 2.3.1.2 Alternative Routes for NH3 Synthesis -- 2.3.2 NH3 Solid-State Storage -- 2.3.2.1 Metal Ammine Salts -- 2.3.2.2 Ammine Metal Borohydride -- 2.3.3 NH3 Decomposition -- 2.3.4 Application of NH3 to Fuel Cell -- 2.4 Future Prospects -- References -- 3 Nanostructured Mg-Based Hydrogen Storage Materials: Synthesis and Properties -- 3.1 Introduction -- 3.2 Experimental Details -- 3.2.1 Synthesis of Metal Nanoparticles -- 3.2.2 Formation of the Nanostructured Hydrides and Alloys -- 3.2.3 Characterization and Measurements -- 3.3 Synthesis Results of the Nanostructured Samples -- 3.4 Hydrogen Absorption Kinetics -- 3.5 Hydrogen Storage Thermodynamics -- 3.6 Novel Mg-TM (TM=V, Zn, Al) Nanocomposites -- 3.6.1 Introduction -- 3.6.2 Structure and Morphology of Mg-TM Nanocomposites -- 3.6.3 Hydrogen Absorption Kinetics -- 3.6.4 Phase Evolution During Hydrogenation/ Dehydrogenation -- 3.6.5 Summary -- 3.7 Summary and Prospects -- Acknowledgments -- References -- 4 Hydrogen Storage in Ti/Zr-Based Amorphous and Quasicrystal Alloys -- 4.1 Introduction -- 4.2 Production of Ti/Zr-Based Amorphous and Quasicrystals Alloys -- 4.3 Hydrogen Storage in T-Zr-Based Amorphous Alloys -- 4.3.1 Gaseous Hydrogenation -- 4.3.2 Electrochemical Hydrogenation…”

Tabla de Contenidos: “…Cover -- Title Page -- Copyright Page -- Contents -- List of Figures -- List of Tables -- Foreword -- Preface -- Acknowledgments -- Acronyms -- Chapter 1 5G Technologies, Architecture and Protocols -- 1.1 Evolution of Wireless Technologies -- 1.2 5G Cellular Network Architecture -- 1.2.1 5G E2E Network Architecture -- 1.2.2 Network Slicing Architecture -- 1.2.3 NFV Management and Orchestration -- 1.2.4 NGMN Envisioned 5G Design -- 1.3 5G Energy Efficiency -- 1.3.1 Full Duplex -- 1.3.2 High Network Data Rate -- 1.3.3 Dense Small Cell Deployment -- 1.3.4 Massive MIMO Antennas -- 1.4 Security in 5G -- 1.5 5G Applications -- 1.5.1 Rapid Data Transmission -- 1.5.2 5G Flexibility for Smart Mobility -- 1.5.3 5G in Smart Cities -- 1.5.4 5G Augmented Reality -- 1.6 Conclusion -- References -- Chapter 2 Scope and Challenges of IoT and Blockchain Integration -- 2.1 Introduction -- 2.2 Literature Review -- 2.3 Internet of Things and Its Centralized System -- 2.3.1 Application Layer -- 2.3.2 Network Layer -- 2.3.3 Device Layer -- 2.4 Blockchain Technology -- 2.4.1 Characteristics of Blockchain -- 2.4.2 Working Mechanisms of Blockchain -- 2.4.3 Example of Blockchain Transactions -- 2.4.4 Need for Blockchain Technology -- 2.5 Integration of Blockchain and IoT Technology -- 2.5.1 Interactions of IoT and Blockchain Integrations -- 2.5.2 Blockchain Platforms for IoT -- 2.5.3 Advantages of Integrating IoT with Blockchain -- 2.5.4 Challenges of Blockchain and IoT Integration -- 2.5.5 Applications of IoT-Blockchain Integration -- 2.6 Conclusion -- References -- Chapter 3 Data Communication and Information Exchange in Distributed IoT Environment -- 3.1 Introduction -- 3.2 IoT Technologies and Their Uses -- 3.2.1 How WSN Works -- 3.2.2 Communication with RIFD-Enabled Devices -- 3.2.3 WWW - Things on the Web -- 3.3 Centralized vs. …”

Tabla de Contenidos: “…Chapter 10 Pattern Formation in Diatoma vulgaris Colonies: Observations and Description by a Lindenmayer-System -- 10.1 Introduction -- 10.2 Materials and Methods -- 10.2.1 Cultivation and Recording of Images -- 10.2.2 Formal Notation of Types of Concatenation and Splitting Processes -- 10.2.3 Methods to Observe the Processes -- 10.2.3.1 Basic Options -- 10.2.3.2 Long-Term Observations -- 10.2.3.3 Analysis of Single Images -- 10.3 Results -- 10.3.1 Observation of Elementary Splitting Processes -- 10.3.2 Observation of Synchronism -- 10.3.3 Observation of the Processes and Appearance of Colonies -- 10.3.3.1 Splitting of Elements of Types c and d -- 10.3.3.2 Splitting of Elements of Types a and b - Dynamic Analysis -- 10.3.3.3 Separation of Elements of Types a and b - Static Analysis -- 10.3.3.4 Dependence on Environmental Parameters -- 10.3.4 Theory Formation -- 10.3.4.1 Description of the Asymmetry -- 10.3.4.2 Lindenmayer System -- 10.3.5 Outer Shape of the Colonies -- 10.4 Discussion -- Acknowledgment -- Appendix 10A: Calculation Scheme -- Appendix 10B: Accordance with the D0L-System -- References -- Chapter 11 RAPHE: Simulation of the Dynamics of Diatom Motility at the Molecular Level - The Domino Effect Hydration Model with Concerted Diffusion -- 11.1 Introduction -- 11.2 Parameters -- 11.3 Ising Lattice Modeling -- 11.4 Allowing Bias -- 11.5 Computer Representation -- 11.6 The Roles of the Cell Membrane, Canal Raphes, and the Diatotepum -- 11.7 Raphan and the Raphe -- 11.8 The Jerky Motion of Diatoms -- 11.9 Diffusion and Concerted Diffusion of Raphan -- 11.10 Shear and Janus-Faced Causation: Motility and Raphan Tilting -- 11.11 The Domino Effect Causes Size Independence of Diatom Speed -- 11.12 Quantitating the Swelling of Raphan in the Diatom Trail -- 11.13 A Schematic of Raphan Discharge -- 11.14 Transitions of Raphan…”

Tabla de Contenidos: “…Morawski Article: Formation of Combustible Hydrocarbons and H2 during Photocatalytic Decomposition of Various Organic Compounds under Aerated and Deaerated Conditions Reprinted from: Molecules 2014, 19(12), 19633-19647 http://www.mdpi.com/1420-3049/19/12/19633 -- Robert Michal, Stavroula Sfaelou and Panagiotis Lianos Article: Photocatalysis for Renewable Energy Production Using PhotoFuelCells Reprinted from: Molecules 2014, 19(12), 19732-19750 http://www.mdpi.com/1420-3049/19/12/19732 -- Josef Krysa, Martin Zlamal, Stepan Kment, Michaela Brunclikova and Zdenek Hubicka Article: TiO2 and Fe2O3 Films for Photoelectrochemical Water Splitting Reprinted from: Molecules 2015, 20(1), 1046-1058 http://www.mdpi.com/1420-3049/20/1/1046 -- Shozo Yanagida, Susumu Yanagisawa, Koichi Yamashita, Ryota Jono and Hiroshi Segawa Article: Theoretical Verification of Photoelectrochemical Water Oxidation Using Nanocrystalline TiO2 Electrodes Reprinted from: Molecules 2015, 20(6), 9732-9744 http://www.mdpi.com/1420-3049/20/6/9732…”

Tabla de Contenidos: “…Chapter 10 : Advanced value-added bioproducts from microalgae -- 10.1 Introduction -- 10.2 Market Value of Algae-Based High-Value Compounds -- 10.3 High-Value Products Used in Different Sectors -- 10.3.1 Cosmetics -- 10.3.2 Pharmaceuticals -- 10.3.3 Food supplements -- 10.3.3.1 Protein content of algae -- 10.3.3.2 Single-cell protein -- 10.3.3.3 Carbohydrates -- 10.3.3.4 Lipids -- 10.3.3.5 Vitamins -- 10.3.3.6 Minerals -- 10.3.4 Agricultural products -- 10.3.4.1 Biofertilizer/biostimulants -- 10.3.4.2 Plant growth-promoting substances/hormones -- 10.3.4.3 Biopesticides -- 10.3.5 Construction sector -- 10.4 Constraints of Algal Biomass Production and Application -- 10.5 Conclusion -- Acknowledgment -- References -- Chapter 11 : Production of biopolymers from microalgae and cyanobacteria -- 11.1 Introduction -- 11.2 Structure and Properties of Biodegradable Bioplastics -- 11.3 Employing Microalgae and Cyanobacteria for Bioplastic Production -- 11.3.1 Cultivation conditions -- 11.3.1.1 Photoautotrophic, heterotrophic, or mixotrophic operational mode -- 11.3.1.2 Nutrient availability -- 11.3.1.3 Light -- 11.3.1.4 Wastewater as a feedstock for microalgae and cyanobacteria cultivation -- 11.3.2 Advantages of PHA production from microalgae and cyanobacteria compared to bacteria -- 11.3.3 PHA blends -- 11.3.3.1 PHA blends with raw materials -- 11.3.3.2 PHA blends with biodegradable polymers -- 11.4 Downstream Processing of Bioplastic Recovery from Microalgae and Cyanobacteria -- 11.4.1 Harvesting -- 11.4.1.1 Centrifugation -- 11.4.1.2 Filtration -- 11.4.1.3 Flocculation and coagulation -- 11.4.1.4 Gravity sedimentation -- 11.4.1.5 Flotation -- 11.4.2 Drying -- 11.4.3 Extraction -- 11.5 Challenges and Future Perspectives…”

Tabla de Contenidos: “…Statistical Learning Approach for the Detection of Abnormalities in Cancer Cells for Finding Indication of Metastasis -- 7.1. …”

Tabla de Contenidos: “…8 EPS Protection for Signalling and User Data -- 8.1 Security Algorithms Negotiation -- 8.1.1 Mobility Management Entities -- 8.1.2 Base Stations -- 8.2 NAS Signalling Protection -- 8.2.1 NAS Security Mode Command Procedure -- 8.2.2 NAS Signalling Protection -- 8.3 AS Signalling and User Data Protection -- 8.3.1 AS Security Mode Command Procedure -- 8.3.2 RRC Signalling and User Plane Protection -- 8.3.3 RRC Connection Re-establishment -- 8.4 Security on Network Interfaces -- 8.4.1 Application of NDS to EPS -- 8.4.2 Security for Network Interfaces of Base Stations -- 8.5 Certificate Enrolment for Base Stations -- 8.5.1 Enrolment Scenario -- 8.5.2 Enrolment Principles -- 8.5.3 Enrolment Architecture -- 8.5.4 CMPv2 Protocol and Certificate Profiles -- 8.5.5 CMPv2 Transport -- 8.5.6 Example Enrolment Procedure -- 8.6 Emergency Call Handling -- 8.6.1 Emergency Calls with NAS and AS Security Contexts in Place -- 8.6.2 Emergency Calls without NAS and AS Security Contexts -- 8.6.3 Continuation of the Emergency Call when Authentication Fails -- 9 Security in Intra-LTE State Transitions and Mobility -- 9.1 Transitions to and from Registered State -- 9.1.1 Registration -- 9.1.2 Deregistration -- 9.2 Transitions Between Idle and Connected States -- 9.2.1 Connection Initiation -- 9.2.2 Back to Idle State -- 9.3 Idle State Mobility -- 9.4 Handover -- 9.4.1 Handover Key Management Requirements Background -- 9.4.2 Handover Keying Mechanisms Background -- 9.4.3 LTE Key Handling in Handover -- 9.4.4 Multiple Target Cell Preparations -- 9.5 Key Change on the Fly -- 9.5.1 KeNB Rekeying -- 9.5.2 KeNB Refresh -- 9.5.3 NAS Key Rekeying -- 9.6 Periodic Local Authentication Procedure -- 9.7 Concurrent Run of Security Procedures -- 10 EPS Cryptographic Algorithms -- 10.1 Null Algorithms -- 10.2 Ciphering Algorithms -- 10.3 Integrity Algorithms…”

Tabla de Contenidos: “…6.2 HISTORICAL BACKGROUND -- 6.3 MECHANISMS OF ACTION -- 6.4 PEF TREATMENT SYSTEM -- 6.5 MAIN PROCESSING PARAMETERS -- 6.6 APPLICATIONS -- 6.7 CONCLUSIONS -- NOMENCLATURE -- References -- Chapter 7 - Pulsed Electric Field Processing of Liquid Foods and Beverages -- 7.1 INTRODUCTION -- 7.2 PEF TECHNOLOGY -- 7.3 MECHANISMS OF MICROBIAL INACTIVATION -- 7.4 EQUIPMENT -- 7.5 PEF TREATMENT VARIABLES -- 7.6 TARGET DIFFERENCES -- 7.7 PEF-BASED NONTHERMAL HURDLE STRATEGIES -- 7.8 SPECIFIC RESULTS ON LIQUID FOODS -- 7.9 PROCESS MODELS -- 7.10 CONCLUSIONS -- NOMENCLATURE -- References -- Chapter 8 - Effect of High-Intensity Electric Field Pulses on Solid Foods -- 8.1 INTRODUCTION -- 8.2 PRINCIPLE AND ANALYSIS OF CELL DISINTEGRATION BY PEF -- 8.3 EFFECTS ON SOLID FOODS -- 8.4 EQUIPMENT AND ENERGY REQUIREMENTS -- 8.5 CONCLUSIONS -- References -- Chapter 9 - Enzymatic Inactivation by Pulsed Electric Fields -- 9.1 INTRODUCTION -- 9.2 MECHANISM OF ENZYME INACTIVATION BY PEF -- 9.3 FACTORS AFFECTING ENZYME INACTIVATION BY PEF -- 9.4 EFFECTS OF PEF ON SPECIFIC ENZYMES -- 9.5 MODELING ENZYMATIC INACTIVATION BY PEF -- 9.6 ENZYME INACTIVATION BY COMBINING PEF WITH OTHER HURDLES -- 9.7 ENZYME ACTIVITY DURING STORAGE OF PEF PROCESSED FOODS -- 9.8 CONCLUSIONS -- NOMENCLATURE -- Acknowledgments -- References -- Chapter 10 - Food Safety Aspects of Pulsed Electric Fields -- 10.1 INTRODUCTION -- 10.2 MICROBIOLOGICAL SAFETY OF PEF -- 10.3 CHEMICAL SAFETY AND PEFS -- 10.4 CONCLUSIONS -- NOMENCLATURE -- Acknowledgments -- References -- SECTION III - OTHER NONTHERMAL PROCESSING TECHNIQUES -- Chapter 11 - Recent Developments in Osmotic Dehydration -- 11.1 INTRODUCTION -- 11.2 MECHANISM OF OSMOTIC DEHYDRATION -- 11.3 EFFECT OF PROCESS PARAMETERS ON MASS TRANSFER AND STRUCTURE -- 11.4 DETERMINATION OF MOISTURE AND SOLID DIFFUSION COEFFICIENTS…”

Tabla de Contenidos: “…Preface xiii Table of Engineering Applications xvii Part 1 Introduction 1 Mathematica Environment and Basic Syntax 3 1.1 Introduction 3 1.2 Selecting Notebook Characteristics 4 1.3 Notebook Cells 8 1.4 Delimiters 12 1.5 Basic Syntax 12 1.5.1 Introduction 12 1.5.2 Templates: Greek Symbols and Mathematical Notation 15 1.5.3 Variable Names and Global Variables 18 1.6 Mathematical Constants 19 1.7 Complex Numbers 21 1.8 Elementary, Trigonometric, Hyperbolic, and a Few Special Functions 22 1.9 Strings 25 1.9.1 String Creation: StringJoin[] and ToString[] 25 1.9.2 Labeled Output: Print[], NumberForm[], EngineeringForm[], and TraditionalForm[] 26 1.10 Conversions, Relational Operators, and Transformation Rule 28 1.11 Engineering Units and Unit Conversions: Quantity[] and UnitConvert[] 30 1.12 Creation of CDF Documents and Documents in Other Formats 33 1.13 Functions Introduced in Chapter 1 34 Exercises 35 2 List Creation and Manipulation: Vectors and Matrices 39 2.1 Introduction 39 2.2 Creating Lists and Vectors 39 2.2.1 Introduction 39 2.2.2 Creating a List with Table[] 45 2.2.3 Summing Elements of a List: Total[] 46 2.2.4 Selecting Elements of a List 47 2.2.5 Identifying List Elements Matching a Pattern: Position[] 49 2.3 Creating Matrices 51 2.3.1 Introduction 51 2.3.2 Matrix Generation Using Table[] 54 2.3.3 Accessing Elements of Arrays 55 2.4 Matrix Operations on Vectors and Arrays 56 2.4.1 Introduction 56 2.4.2 Matrix Inverse and Determinant: Inverse[] and Det[] 57 2.5 Solution of a Linear System of Equations: LinearSolve[] 58 2.6 Eigenvalues and Eigenvectors: EigenSystem[] 59 2.7 Functions Introduced in Chapter 2 61 References 61 Exercises 61 3 User-Created Functions, Repetitive Operations, and Conditionals 69 3.1 Introduction 69 3.2 Expressions and Procedures as Functions 69 3.2.1 Introduction 69 3.2.2 Pure Function: Function[] 74 3.2.3 Module[] 78 3.3 Find Elements of a List that Meet a Criterion: Select[] 80 3.4 Conditionals 82 3.4.1 If[] 82 3.4.2 Which[] 83 3.5 Repetitive Operations 83 3.5.1 Do[] 83 3.5.2 While[] 83 3.5.3 Nest[] 84 3.5.4 Map[] 84 3.6 Examples of Repetitive Operations and Conditionals 85 3.7 Functions Introduced in Chapter 3 92 Exercises 92 4 Symbolic Operations 95 4.1 Introduction 95 4.2 Assumption Options 101 4.3 Solutions of Equations: Solve[] 101 4.4 Limits: Limit[] 105 4.5 Power Series: Series[], Coefficient[], and CoefficientList[] 108 4.6 Optimization: Maximize[]/Minimize[] 112 4.7 Differentiation: D[] 114 4.8 Integration: Integrate[] 120 4.9 Solutions of Ordinary Differential Equations: DSolve[] 126 4.10 Solutions of Partial Differential Equations: DSolve[] 136 4.11 Laplace Transform: LaplaceTransform[] and InverseLaplaceTransform[] 138 4.12 Functions Introduced in Chapter 4 145 References 145 Exercises 146 5 Numerical Evaluations of Equations 151 5.1 Introduction 151 5.2 Numerical Integration: NIntegrate[] 151 5.3 Numerical Solutions of Differential Equations: NDSolveValue[] and ParametricNDSolveValue[] 154 5.4 Numerical Solutions of Equations: NSolve[] 178 5.5 Roots of Transcendental Equations: FindRoot[] 180 5.6 Minimum and Maximum: FindMinimum[] and FindMaximum[] 182 5.7 Fitting of Data: Interpolation[] and FindFit[] 186 5.8 Discrete Fourier Transforms and Correlation: Fourier[], InverseFourier[], and ListCorrelate[] 189 5.9 Functions Introduced in Chapter 5 194 References 195 Exercises 196 6 Graphics 209 6.1 Introduction 209 6.2 2D Graphics 209 6.2.1 Basic Plotting 209 6.2.2 Basic Graph Enhancements 213 6.2.3 Common 2D Shapes: Graphics[] 217 6.2.4 Additional Graph Enhancements 222 6.2.5 Combining Figures: Show[] and GraphicsGrid[] 238 6.2.6 Tooltip[] 241 6.2.7 Exporting Graphics 244 6.3 3D Graphics 244 6.4 Summary of Functions Introduced in Chapter 6 253 References 254 Exercises 254 7 Interactive Graphics 263 7.1 Interactive Graphics: Manipulate[] 263 References 287 Exercises 287 Part 2 Engineering Applications 8 Vibrations of Spring Mass Systems and Thin Beams 293 8.1 Introduction 293 8.2 Single Degree-of-Freedom Systems 294 8.2.1 Periodic Force on a Single Degree-of-Freedom System 294 8.2.2 Squeeze Film Damping and Viscous Fluid Damping 298 8.2.3 Electrostatic Attraction 302 8.2.4 Single Degree-of-Freedom System Energy Harvester 304 8.3 Two Degrees-of-Freedom Systems 307 8.3.1 Governing Equations 307 8.3.2 Response to Harmonic Excitation: Amplitude Response Functions 307 8.3.3 Enhanced Energy Harvester 310 8.4 Thin Beams 315 8.4.1 Natural Frequencies and Mode Shapes of a Cantilever Beam with In-Span Attachments 315 8.4.2 Effects of Electrostatic Force on the Natural Frequency and Stability of a Beam 318 8.4.3 Response of a Cantilever Beam with an In-Span Attachment to an Impulse Force 323 References 326 9 Statistics 327 9.1 Descriptive Statistics 327 9.1.1 Introduction 327 9.1.2 Location Statistics: Mean[], StandardDeviation[], and Quartile[] 327 9.1.3 Continuous Distribution Functions: PDF[] and CDF[] 329 9.1.4 Histograms and Probability Plots: Histogram[] and ProbabilityScalePlot [] 331 9.1.5 Whisker Plot: BoxWhiskerChart[] 332 9.1.6 Creating Data with Specified Distributions: RandomVariate[] 334 9.2 Probability of Continuous Random Variables 334 9.2.1 Probability for Different Distributions: NProbability[] 334 9.2.2 Inverse Cumulative Distribution Function: InverseCDF[] 337 9.2.3 Distribution Parameter Estimation: EstimatedDistribution[] and FindDistributionParameters[] 337 9.2.4 Confidence Intervals: CI[] 340 9.2.5 Hypothesis Testing: LocationTest[] and VarianceTest[] 342 9.3 Regression Analysis: LinearModelFit[] 343 9.3.1 Simple Linear Regression 343 9.3.2 Multiple Linear Regression 347 9.4 Nonlinear Regression Analysis: NonLinearModelFit[] 351 9.5 Analysis of Variance (ANOVA) and Factorial Designs: ANOVA[] 354 9.6 Functions Introduced in Chapter 9 358 10 Control Systems and Signal Processing 359 10.1 Introduction 359 10.2 Model Generation: State-Space and Transfer Function Representation 359 10.2.1 Introduction 359 10.2.2 State-Space Models: StateSpaceModel[] 360 10.2.3 Transfer Function Models: TransferFunctionModel[] 362 10.3 Model Connections Closed-Loop Systems and System Response: SystemsModelFeedbackConnect[] and SystemsModelSeriesConnect[] 363 10.4 Design Methods 369 10.4.1 Root Locus: RootLocusPlot[] 369 10.4.2 Bode Plot: BodePlot[] 371 10.4.3 Nichols Plot: NicholsPlot[] 372 10.5 Signal Processing 374 10.5.1 Filter Models: ButterworthFilterModel[], EllipticFilterModel[], ... 374 10.5.2 Windows: HammingWindow[], HannWindow[], ... 381 10.5.3 Spectrum Averaging 385 10.6 Aliasing 388 10.7 Functions Introduced in Chapter 10 390 Reference 391 11 Heat Transfer and Fluid Mechanics 393 11.1 Introduction 393 11.2 Conduction Heat Transfer 394 11.2.1 One-Dimensional Transient Heat Diffusion in Solids 394 11.2.2 Heat Transfer in Concentric Spheres: Ablation of a Tumor 398 11.2.3 Heat Flow Through Fins 401 11.3 Natural Convection Along Heated Plates 405 11.4 View Factor Between Two Parallel Rectangular Surfaces 408 11.5 Internal Viscous Flow 411 11.5.1 Laminar Flow in Horizontal Cylindrical Pipes 411 11.5.2 Flow in Three Reservoirs 412 11.6 External Flow 416 11.6.1 Pressure Coefficient of a Joukowski Airfoil 416 11.6.2 Surface Profile in Nonuniform Flow in Open Channels 419 References 423 Index 425.…”

Tabla de Contenidos: “…-- 16 Molecular Vibrations -- 17 Conclusion -- References -- Structures -- Building with DNA: From Curiosity-Driven Research to Practice -- 1 Introduction -- 2 Engineering Cell-Sized DNA Structures -- 2.1 Challenges -- 2.2 Opportunities -- 3 Building Designer DNA Crystals with Atomic Resolutions -- 3.1 Challenges -- 3.2 Opportunities -- 4 Transferring to RNA Structural Design -- 4.1 Challenges -- 4.2 Opportunities -- 5 At the End -- References…”

Tabla de Contenidos: “…Maria Luisa Scattoni, Department of Cell Biology & Neuroscience,Istituto Superiore di Sanità, Roma, Italy and Dr. …”

Tabla de Contenidos: “…Characteristics of immune system -- 8.6.1. White blood cells -- 8.6.2. Antibodies -- 8.6.3. Complement system -- 8.6.4. …”

Tabla de Contenidos: “…11.2.4 Algebraic Operations with Symbolic Expressions -- 11.2.5 Differentiation with Symbolic Expressions -- 11.2.6 Integration with Symbolic Expressions -- 11.2.7 Solving Algebraic Equations -- 11.2.8 Solving Differential Equations -- 11.2.9 Laplace Transform -- 11.3 Cell Arrays and Structures -- 11.4 Calling C Functions -- 11.4.1 The Distinction between mx and mex Prefixes -- 11.4.2 Creating C Language MEX-Files -- 11.5 Object Oriented Design -- 11.5.1 Classes in MATLAB -- 11.5.2 Overloading -- 11.5.3 Inheritance -- Programming Tips and Pitfalls -- Summary -- Exercises -- 12. …”