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200 1 $aMetabolism in the female life cycle$fEditors Michael P. Diamond, Fredrick Naftolin
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225 1 $aFrontiers in endocrinology$v1
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610 0 $aOstetricia
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200 10$aVariational calculus with engineering applications /$fConstantin Udris?te and Ionel Tevy
210  1$aHoboken, New Jersey ;$aChichester, West Sussex, England :$cWiley,$d[2023]
210  4$d©2023
215   $a1 online resource (224 pages)
311 08$aPrint version: Udriste, Constantin Variational Calculus with Engineering Applications Newark : John Wiley & Sons, Incorporated,c2023 9781119944362 
320   $aIncludes bibliographical references (pages 214-219) and index.
327   $aIntro -- Variational Calculus with Engineering Applications -- Contents -- Preface -- 1 Extrema of Differentiable Functionals -- 1.1 Differentiable Functionals -- 1.2 Extrema of Differentiable Functionals -- 1.3 Second Variation -- Sufficient Conditions for Extremum -- 1.4 Optimum with Constraints -- the Principle of Reciprocity -- 1.4.1 Isoperimetric Problems -- 1.4.2 The Reciprocity Principle -- 1.4.3 Constrained Extrema: The Lagrange Problem -- 1.5 Maple Application Topics -- 2 Variational Principles -- 2.1 Problems with Natural Conditions at the Boundary -- 2.2 Sufficiency by the Legendre-Jacobi Test -- 2.3 Unitemporal Lagrangian Dynamics -- 2.3.1 Null Lagrangians -- 2.3.2 Invexity Test -- 2.4 Lavrentiev Phenomenon -- 2.5 Unitemporal Hamiltonian Dynamics -- 2.6 Particular Euler-Lagrange ODEs -- 2.7 Multitemporal Lagrangian Dynamics -- 2.7.1 The Case of Multiple Integral Functionals -- 2.7.2 Invexity Test -- 2.7.3 The Case of Path-Independent Curvilinear Integral Functionals -- 2.7.4 Invexity Test -- 2.8 Multitemporal Hamiltonian Dynamics -- 2.9 Particular Euler-Lagrange PDEs -- 2.10 Maple Application Topics -- 3 Optimal Models Based on Energies -- 3.1 Brachistochrone Problem -- 3.2 Ropes, Chains and Cables -- 3.3 Newton's Aerodynamic Problem -- 3.4 Pendulums -- 3.4.1 Plane Pendulum -- 3.4.2 Spherical Pendulum -- 3.4.3 Variable Length Pendulum -- 3.5 Soap Bubbles -- 3.6 Elastic Beam -- 3.7 The ODE of an Evolutionary Microstructure -- 3.8 The Evolution of a Multi-Particle System -- 3.8.1 Conservation of Linear Momentum -- 3.8.2 Conservation of Angular Momentum -- 3.8.3 Energy Conservation -- 3.9 String Vibration -- 3.10 Membrane Vibration -- 3.11 The Schrödinger Equation in Quantum Mechanics -- 3.11.1 Quantum Harmonic Oscillator -- 3.12 Maple Application Topics -- 4 Variational Integrators -- 4.1 Discrete Single-time Lagrangian Dynamics.
327   $a4.2 Discrete Hamilton's Equations -- 4.3 Numeric Newton's Aerodynamic Problem -- 4.4 Discrete Multi-time Lagrangian Dynamics -- 4.5 Numerical Study of the Vibrating String Motion -- 4.5.1 Initial Conditions for Infinite String -- 4.5.2 Finite String, Fixed at the Ends -- 4.5.3 Monomial (Soliton) Solutions -- 4.5.4 More About Recurrence Relations -- 4.5.5 Solution by Maple via Eigenvalues -- 4.5.6 Solution by Maple via Matrix Techniques -- 4.6 Numerical Study of the Vibrating Membrane Motion -- 4.6.1 Monomial (Soliton) Solutions -- 4.6.2 Initial and Boundary Conditions -- 4.7 Linearization of Nonlinear ODEs and PDEs -- 4.8 Von Neumann Analysis of Linearized Discrete Tzitzeica PDE -- 4.8.1 Von Neumann Analysis of Dual Variational Integrator Equation -- 4.8.2 Von Neumann Analysis of Linearized Discrete Tzitzeica Equation -- 4.9 Maple Application Topics -- 5 Miscellaneous Topics -- 5.1 Magnetic Levitation -- 5.1.1 Electric Subsystem -- 5.1.2 Electromechanic Subsystem -- 5.1.3 State Nonlinear Model -- 5.1.4 The Linearized Model of States -- 5.2 The Problem of Sensors -- 5.2.1 Simplified Problem -- 5.2.2 Extending the Simplified Problem of Sensors -- 5.3 The Movement of a Particle in Non-stationary Gravito-vortex Field -- 5.4 Geometric Dynamics -- 5.4.1 Single-time Case -- 5.4.2 The Least Squares Lagrangian in Conditioning Problems -- 5.4.3 Multi-time Case -- 5.5 The Movement of Charged Particle in Electromagnetic Field -- 5.5.1 Unitemporal Geometric Dynamics Induced by Vector Potential -- 5.5.2 Unitemporal Geometric Dynamics Produced by Magnetic Induction -- 5.5.3 Unitemporal Geometric Dynamics Produced by Electric Field -- 5.5.4 Potentials Associated to Electromagnetic Forms -- 5.5.5 Potential Associated to Electric 1-form -- 5.5.6 Potential Associated to Magnetic 1-form -- 5.5.7 Potential Associated to Potential 1-form.
327   $a5.6 Wind Theory and Geometric Dynamics -- 5.6.1 Pendular Geometric Dynamics and Pendular Wind -- 5.6.2 Lorenz Geometric Dynamics and Lorenz Wind -- 5.7 Maple Application Topics -- 6 Nonholonomic Constraints -- 6.1 Models With Holonomic and Nonholonomic Constraints -- 6.2 Rolling Cylinder as a Model with Holonomic Constraints -- 6.3 Rolling Disc (Unicycle) as a Model with Nonholonomic Constraint -- 6.3.1 Nonholonomic Geodesics -- 6.3.2 Geodesics in Sleigh Problem -- 6.3.3 Unicycle Dynamics -- 6.4 Nonholonomic Constraints to the Car as a Four-wheeled Robot -- trailer -- 6.5 Nonholonomic Constraints to the -- 6.6 Famous Lagrangians -- 6.7 Significant Problems -- 6.8 Maple Application Topics -- 7 Problems: Free and Constrained Extremals -- 7.1 Simple Integral Functionals -- 7.2 Curvilinear Integral Functionals -- 7.3 Multiple Integral Functionals -- 7.4 Lagrange Multiplier Details -- 7.5 Simple Integral Functionals with ODE Constraints -- 7.6 Simple Integral Functionals with Nonholonomic Constraints -- 7.7 Simple Integral Functionals with Isoperimetric Constraints -- 7.8 Multiple Integral Functionals with PDE Constraints -- 7.9 Multiple Integral Functionals With Nonholonomic Constraints -- 7.10 Multiple Integral Functionals With Isoperimetric Constraints -- 7.11 Curvilinear Integral Functionals With PDE Constraints -- 7.12 Curvilinear Integral Functionals With Nonholonomic Constraints -- 7.13 Curvilinear Integral Functionals with Isoperimetric Constraints -- 7.14 Maple Application Topics -- Bibliography -- Index -- EULA.
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200 10$aSoftware Development, Design, and Coding $eWith Patterns, Debugging, Unit Testing, and Refactoring /$fby John F. Dooley, Vera A. Kazakova
205   $a3rd ed. 2024.
210  1$aBerkeley, CA :$cApress :$cImprint: Apress,$d2024.
215   $a1 online resource (521 pages)
311 08$a979-88-6880-284-3 
320   $aIncludes bibliographical references and index.
327   $aChapter 1: Introduction to Software Development -- PART ONE: MODELS AND TEAM PRACTICES -- Chapter 2: Software Process Models -- Chapter 3: Project Management Essentials -- Chapter 4: Ethics and Professional Practice -- Chapter 5: Intellectual Property, Obligations, and Ownership -- Chapter 6: Requirements -- PART TWO: DESIGN PRACTICES -- Chapter 7: Software Architecture -- Chapter 8: Design Principles -- Chapter 9: Structured Design -- Chapter 10: Object-Oriented Overview -- Chapter 11: Object-Oriented Analysis and Design -- Chapter 12: Object-Oriented Design Principles -- Chapter 13: Design Patterns -- Chapter 14:Parallel Programming -- Chapter 15:Parallel; Design Patterns -- PART THREE: CODING PRACTICES -- Chapter 16: Code Construction -- Chapter 17: Debugging -- Chapter 18: Unit Testing -- Chapter 19:P Code Reviews and Inspections -- Chapter 20: Wrapping It All Up.
330   $aLearn the principles of good software design and then turn those principles into great code. This book introduces you to software engineering, from the application of engineering principles to the development of software. You?ll see how to run a software development project, examine the different phases of a project, and learn how to design and implement programs that solve specific problems. This book is also about code construction ? how to write great programs and make them work. Whether you?re new to programming or have written hundreds of applications, in this book you?ll re-examine what you already do, and you?ll investigate ways to improve. Using examples in the Java and C programming languages, you?ll look deeply into coding standards, debugging, unit testing, modularity, and other characteristics of effective programs. This new third edition incorporates new content, new figures, clarifying revisions, and content reorganization across all chapters. The Software Development Approaches chapter has been updated to highlight the differences between lean and agile general approaches, their various specific implementations, and how they can be effectively combined in software development practices. The Project Management Essentials chapter has been expanded to incorporate "SoftAware Development": a new paradigm which centers individuals, interpersonal relationships, and workplace culture as the heart of healthy and sustainable joint creation of software. Finally, a brand new chapter on intellectual property discusses copyright, patents, and how joint work affects code ownership rights. You Will Learn Modern agile methodologies How to work on and with development teams How to leverage the capabilities of modern computer systems with parallel programming How to work with design patterns to exploit application development best practices How to use modern tools for development, collaboration, and source code controls.
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