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A systematic treatment of the finite element method "Anyone interested in the state of the art in finite element formulations will find this book an interesting read. In particular, I would strongly recommend it to those members of the electromagnetic community who are involved in highfrequency applications." Measurement Science and Technology The finite element method is one of the preeminent simulation techniques for obtaining solutions to boundaryvalue problems in mathematical physics. It has applications in a variety of engineering and scientific studies, such as antennas, radar, microwave engineering, highspeed/highfrequency circuits, wireless communication, electrooptical engineering, remote sensing, bioelectromagnetics, and geoelectromagnetics. This Second Edition of an essential text teaches the finite element method for electromagnetic analysis. It offers engineers a methodical way to quickly master this very powerful technique for solving practical, often complicated, engineering problems. This book provides the first systematic treatment of this numerical analysis technique for electromagnetics, including a brief overview of the two classic methodsthe Ritz variational method and Galerkin's methodwhich form the foundation of the finite element function. Employing an example to introduce the concept of the finite element method and describe the essential steps of the technique, the author lays the groundwork for a broadbased understanding of the finite element method's usefulness. He completes his coverage by describing the finite element analysis of one, two, and threedimensional problems, developing for each problem a rigorous finite element solution in general form from which solutions to specific problems can be deduced. Carefully updated to include the most recent developments, the Second Edition now includes new coverage of: * Absorbing boundary conditions * A hybrid technique for penregion scattering and radiation problems * Eigen
Electromagnetism  Finite element method  Electromagnetic waves  Mathematical models  Finite element method.  Mathematical models.  Electromagnetism  519.63  681.3*G18  537.8  Electromagnetics  Magnetic induction  Magnetism  Metamaterials  Electromagnetic energy  Electromagnetic radiation  Electromagnetic theory  Waves  FEA (Numerical analysis)  FEM (Numerical analysis)  Finite element analysis  Numerical analysis  Isogeometric analysis  Numerical methods for solution of partial differential equations  Partial differential equations: difference methods; elliptic equations; finite element methods; hyperbolic equations; method of lines; parabolic equations (Numerical analysis)  Electromagnetism. Electromagnetic field. Electrodynamics. Maxwell theory  537.8 Electromagnetism. Electromagnetic field. Electrodynamics. Maxwell theory  681.3 *G18 Partial differential equations: difference methods; elliptic equations; finite element methods; hyperbolic equations; method of lines; parabolic equations (Numerical analysis)  519.63 Numerical methods for solution of partial differential equations  519.63  681.3 *G18
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517.96  Continuum mechanics  Finite element method  681.3 *G18  FEA (Numerical analysis)  FEM (Numerical analysis)  Finite element analysis  Numerical analysis  Isogeometric analysis  Mechanics of continua  Elasticity  Mechanics, Analytic  Field theory (Physics)  Finite differences. Functional and integral equations  Partial differential equations: difference methods elliptic equations finite element methods hyperbolic equations method of lines parabolic equations (Numerical analysis)  681.3 *G18 Partial differential equations: difference methods elliptic equations finite element methods hyperbolic equations method of lines parabolic equations (Numerical analysis)  517.96 Finite differences. Functional and integral equations  Partial differential equations: difference methods; elliptic equations; finite element methods; hyperbolic equations; method of lines; parabolic equations (Numerical analysis)  681.3 *G18 Partial differential equations: difference methods; elliptic equations; finite element methods; hyperbolic equations; method of lines; parabolic equations (Numerical analysis)  Structural analysis (Engineering)  #TWER:MOD  Architectural engineering  Engineering, Architectural  Structural mechanics  Structures, Theory of  Structural engineering  57.087.1  57.087.1 Biometry. Statistical study and treatment of biological data  Biometry. Statistical study and treatment of biological data
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Numerical solutions of differential equations  Finite element method  Méthode des éléments finis  519.6  681.3 *G18  FEA (Numerical analysis)  FEM (Numerical analysis)  Finite element analysis  Numerical analysis  Isogeometric analysis  Computational mathematics. Numerical analysis. Computer programming  Partial differential equations: difference methods; elliptic equations; finite element methods; hyperbolic equations; method of lines; parabolic equations (Numerical analysis)  Finite element method.  681.3 *G18 Partial differential equations: difference methods; elliptic equations; finite element methods; hyperbolic equations; method of lines; parabolic equations (Numerical analysis)  519.6 Computational mathematics. Numerical analysis. Computer programming  Méthode des éléments finis  Équations différentielles.  Differential equations.  Approximation, Théorie de l'.  Approximation theory.  Analyse numérique.  Numerical analysis.  Éléments finis, Méthode des.  Monograph
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517.96  681.3 *G18  Finite differences. Functional and integral equations  Partial differential equations: difference methods; elliptic equations; finite element methods; hyperbolic equations; method of lines; parabolic equations (Numerical analysis)  681.3 *G18 Partial differential equations: difference methods; elliptic equations; finite element methods; hyperbolic equations; method of lines; parabolic equations (Numerical analysis)  517.96 Finite differences. Functional and integral equations  #TWER:MOD  57.087.1  57.087.1 Biometry. Statistical study and treatment of biological data  Biometry. Statistical study and treatment of biological data  Numerical analysis  Mechanical properties of solids  Mathematical physics  Fluid mechanics  Materials sciences  Discrete mathematics  Structural analysis (Engineering)  Continuum mechanics  Finite element method  Constructions, Théorie des  Milieux continus, Mécanique des  Méthode des éléments finis  Finite element method.  Éléments finis, Méthode des.  Mechanics.  Mécanique.  Fluid mechanics.  Fluides, Mécanique des.  Systèmes linéaires.  Linear systems.
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Stochastic differential equations.  519.216  517.9  Stochastic differential equations  681.3*H35  681.3*H1  681.3*H1 Models and principles (Information systems)  Models and principles (Information systems)  681.3*H35 Online information services: data bank sharing  Online information services: data bank sharing  517.9 Differential equations. Integral equations. Other functional equations. Finite differences. Calculus of variations. Functional analysis  Differential equations. Integral equations. Other functional equations. Finite differences. Calculus of variations. Functional analysis  519.216 Stochastic processes in general. Prediction theory. Stopping times. Martingales  Stochastic processes in general. Prediction theory. Stopping times. Martingales  519.2  Differential equations  FokkerPlanck equation  Mathematical analysis.  Analysis (Mathematics).  Probabilities.  Mathematical physics.  System theory.  Calculus of variations.  Partial differential equations.  Analysis.  Probability Theory and Stochastic Processes.  Theoretical, Mathematical and Computational Physics.  Systems Theory, Control.  Calculus of Variations and Optimal Control; Optimization.  Partial Differential Equations.  Partial differential equations  Isoperimetrical problems  Variations, Calculus of  Maxima and minima  Systems, Theory of  Systems science  Science  Physical mathematics  Physics  Probability  Statistical inference  Combinations  Mathematics  Chance  Least squares  Mathematical statistics  Risk  517.1 Mathematical analysis  Mathematical analysis  Philosophy
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