Engineering Mathematics 1 Electromagnetics, Fluid Mechanics, Material Physics and Financial Engineering by Sergei Silvestrov and Milica Rancic
Engineering Mathematics 1 Electromagnetics, Fluid Mechanics, Material Physics and Financial Engineering Download PDF
Picture Of The Book;
Engineering Mathematics 1 Electromagnetics, Fluid Mechanics, Material Physics and Financial Engineering
About Of The Book;
This book highlights the latest advances in engineering mathematics with a main focus on the mathematical models, structures, concepts, problems and computational methods and algorithms most relevant for applications in modern technologies and engineering. In particular, it features mathematical methods and models of applied analysis, probability theory, differential equations, tensor analysis and
computational modelling used in applications to important problems concerning electromagnetics, antenna technologies, fluid dynamics, material and continuum physics and financial engineering.
Chapters 1–10 are concerned with applied mathematics methods and models applied in electrical engineering, electromagnetism and antenna technologies. Chapter 1 by Dragan Poljak is concerned with applications of integro-differential equations and numerical analysis methods to the analysis of grounding systems important in the design of lightning protection systems. The analysis of horizontal
grounding electrodes has been carried out using the antenna theory approach in the frequency and time domain respectively. The formulation is based on the corresponding space-frequency and space-time Pocklington integro-differential equations.
The electromagnetic model based on the surface integral equation formulation is derived using the equivalence theorem for the case of a lossy homogeneous dielectric body. The thermal dosimetry model of the brain is based on the form of Pennes’ equation of heat transfer in biological issue. The numerical solution of the electromagnetic model is carried out using the Method of Moments, while the bioheat equation is solved using the finite element method. The electromagnetic thermal model developed here has been applied in internal dosimetry of the human brain to assess the absorbed electromagnetic energy and consequent temperature rise.
Content Of The Book;
1 Frequency Domain and Time Domain Response of the Horizontal Grounding Electrode Using the Antenna Theory Approach
2 On the Use of Analytical Methods in Electromagnetic Compatibility and Magnetohydrodynamics
3 Analysis of Horizontal Thin-Wire Conductor Buried in Lossy Ground: New Model for Sommerfeld Type Integral
4 Comparison of TL, Point-Matching and Hybrid Circuit Method Analysis of a Horizontal Dipole Antenna Immersed in Lossy Soil
5 Theoretical Study of Equilateral Triangular Microstrip Antenna and Its Arrays
6 Green Function of the Point Source Inside/Outside Spherical Domain - Approximate Solutio
7 The Electromagnetic–Thermal Dosimetry Model of the Human Brain
8 Quasi-TEM Analysis of Multilayered Shielded Microstrip Lines Using Hybrid Boundary Element Method
9 Modified Transmission Line Models of Lightning Strokes Using New Current Functions and Attenuation Factors
10 On Some Properties of the Multi-peaked Analytically Extended Function for Approximation of Lightning Discharge Currents
Book Format : PDF
Language : English
Page :178
Size : 9.14 MB
To Engineering Mathematics 1 Electromagnetics, Fluid Mechanics, Material Physics and Financial Engineering Download PDF