Magnetic positioning equations : theory and applications /

In the study of Magnetic Positioning Equations, it is possible to calculate and create analytical expressions for the intensity of magnetic fields when the coordinates x, y and z are known; identifying the inverse expressions is more difficult. This book is designed to explore the discovery of how t...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Esh, Mordechay
Formato: Electrónico eBook
Idioma:Inglés
Publicado: [Place of publication not identified] : Academic Press, 2012.
Temas:
Magnetic fields > Mathematics.
Magnetic fields > Measurement.
Champs magn�etiques > Math�ematiques.
Magnetic fields > Mathematics
Magnetic fields > Measurement
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Magnetic Positioning Equations: Theory and Applications; Copyright page; Table of Contents; Preface; About the book; About the author; 1 Introduction; 2 Magnetic Fields; 2.1 Single-Wire Magnetic Field; 2.2 Magnetic Geometric Factor (G); 2.3 Magnetic Field of Triangular Wires; 3 First Magnetic Positioning Equation; 3.1 Resolving Factor G; 3.2 Triangular Couple; 3.3 Multiple-Turn Coils; 4 Magnetic Positioning System; 4.1 Detector Rotation Matrix; 4.2 Solution of the Rotation Matrix; 4.2.1 Singular Cases; 4.3 Detector Coordinates; 5 Equations of Quadrilateral Coils
  • 5.1 Triple Quadrilaterals5.2 Angle Rotation Coils; 5.3 Coil Design; 5.3.1 Eight-Step Procedure-Coil Design; 5.4 ARC Coils
  • Triple Quadrilaterals; 5.5 XYZ Coils
  • Quadrilateral Symmetric Triple; 6 Quad Quadrilateral Coil Equations; 6.1 Real ARC Quad Coil Design; 6.2 Real XYZ Coil Design; 6.2.1 Quad Quadrilaterals
  • Bisymmetric; 6.2.2 Quad Quadrilaterals
  • Symmetric; 6.2.3 XYZ Coils
  • Discussion; 6.3 Manipulation Properties; 6.3.1 Shifting; 6.3.2 Rotating; 6.3.3 Magnification; 7 Distortions and Disturbances; Optimal Estimation Methods; 7.1 Scan System for ARC Coils
  • 7.1.1 Minimization of the Positioning Equations7.1.2 Minimization of the Measurement Errors; 7.2 Scan System for XYZ Coils; 7.2.1 Minimization of the Positioning Equations; 7.2.2 Minimization of the Measurement Errors; 7.3 G Distances; 7.4 Vertex Problem; 8 Detectors; 8.1 Energy Detectors; 8.2 Detector Coils; 8.2.1 ARC Detectors; 8.2.2 XYZ Detectors; 9 Coefficients Method; 9.1 Ten Steps to Positioning Equations; 9.2 Examples; 9.2.1 Triangular Couple; 9.2.2 Two Quadrilaterals; 9.2.3 Triad Triangles; 9.3 Two-Axis Detector Positioning Equations; 10 Positioning Equations
  • 3D Coils
  • 10.1 3D Triangles10.2 3D Quadrilateral Coils; 10.3 3D Coefficient Method; 10.3.1 Cubic Coils; 10.4 One-Axis Detector Positioning Equations; Open Issues; A Quadratic to Quartic Equations; B Matrix Structure

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