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Modern technology is rapidly developing and for this reason future engineers need to acquire advanced knowledge in science and technology, including electromagnetic phenomena. This book is a contemporary text of a one-semester course for junior electrical engineering students. It covers a broad spectrum of electromagnetic phenomena such as,
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Modern technology is rapidly developing and for this reason future engineers need to acquire advanced knowledge in science and technology, including electromagnetic phenomena. This book is a contemporary text of a one-semester course for junior electrical engineering students. It covers a broad spectrum of electromagnetic phenomena such as,
Produktdetails
- Produktdetails
- Verlag: CRC Press
- Seitenzahl: 368
- Erscheinungstermin: 10. Dezember 2019
- Englisch
- Abmessung: 254mm x 178mm x 20mm
- Gewicht: 640g
- ISBN-13: 9780367889616
- ISBN-10: 0367889617
- Artikelnr.: 58482192
- Verlag: CRC Press
- Seitenzahl: 368
- Erscheinungstermin: 10. Dezember 2019
- Englisch
- Abmessung: 254mm x 178mm x 20mm
- Gewicht: 640g
- ISBN-13: 9780367889616
- ISBN-10: 0367889617
- Artikelnr.: 58482192
Vladimir V. Mitin is SUNY Distinguished Professor in the Department of Electrical Engineering and Adjunct Professor of Physics at the University at Buffalo, The State University of New York. He is a Fellow of IEEE, SPIE, APS, AAAS, and IoP and the author of five textbooks, four research monographs, and more than 260 research articles published in refereed journals. Dmitry I. Sementsov is Professor of Physics at Ulyanovsk State University, Russia. He is the author of one textbook and more than 420 research papers published in peer-reviewed journals.
PART I: ELECTRIC AND MAGNETIC FIELDS IN ISOTROPIC MEDIA. CHAPTER 1.
ELECTROSTATICS. Electric charges, electric charge conservation law,
Coulomb's law. Electric field vector, principle of superposition. Electric
potential and electric field energy. Gauss's law for the electric field.
Relation between the electric field and the electric potential. Poisson's
and Laplace equations. Electric field in a medium, electric displacement.
Problems. CHAPTER 2. MAGNETOSTATICS. Interaction of moving charges. The
field of moving charges and currents, the Biot-Savart law. Ampere's law.
Magnetic field of a solenoid. Magnetic field in a medium, magnetic field
intensity. Problems. CHAPTER 3. MAXWELL'S EQUATIONS FOR ELECTROMAGNETIC
FIELDS. Faraday's law. Self-inductance and mutual inductance. Magnetic
field energy. Transient processes in circuits with capacitors and
inductors. Displacement current. Maxwell's equations. Problems. PART II:
ELECTROMAGNETIC WAVES IN HOMOGENEOUS, HETEROGENEOUS AND ANISOTROPIC MEDIA.
CHAPTER 4. ELECTROMAGNETIC WAVES IN HOMOGENEOUS MEDIA WITHOUT ABSORPTION.
Electromagnetic wave spectrum. Wave equation. Plane monochromatic waves.
olarization of electromagnetic waves. Superposition of electromagnetic
waves. Energy and momentum of a wave. Standing waves. Interference and
coherence of electromagnetic waves. Problems. CHAPTER 5. ELECTROMAGNETIC
FIELDS AND WAVES AT THE INTERFACE BETWEEN TWO MEDIA. Boundary conditions
and inverse boundary value problem in electromagnetism Boundary conditions
for the electric field of an electromagnetic wave. Boundary conditions for
the magnetic field of an electromagnetic wave. Laws of reflection and
refraction of waves. Reflection and transmission coefficients of waves.
Total internal reflection. Reflection of a wave from a dielectric layer.
Problems. CHAPTER 6. ELECTROMAGNETIC WAVES IN ANISOTROPIC AND OPTICALLY
ACTIVE MEDIA. The structure of plane wave in an anisotropic medium.
Dispersion relation and normal waves. Waves in uniaxi
ELECTROSTATICS. Electric charges, electric charge conservation law,
Coulomb's law. Electric field vector, principle of superposition. Electric
potential and electric field energy. Gauss's law for the electric field.
Relation between the electric field and the electric potential. Poisson's
and Laplace equations. Electric field in a medium, electric displacement.
Problems. CHAPTER 2. MAGNETOSTATICS. Interaction of moving charges. The
field of moving charges and currents, the Biot-Savart law. Ampere's law.
Magnetic field of a solenoid. Magnetic field in a medium, magnetic field
intensity. Problems. CHAPTER 3. MAXWELL'S EQUATIONS FOR ELECTROMAGNETIC
FIELDS. Faraday's law. Self-inductance and mutual inductance. Magnetic
field energy. Transient processes in circuits with capacitors and
inductors. Displacement current. Maxwell's equations. Problems. PART II:
ELECTROMAGNETIC WAVES IN HOMOGENEOUS, HETEROGENEOUS AND ANISOTROPIC MEDIA.
CHAPTER 4. ELECTROMAGNETIC WAVES IN HOMOGENEOUS MEDIA WITHOUT ABSORPTION.
Electromagnetic wave spectrum. Wave equation. Plane monochromatic waves.
olarization of electromagnetic waves. Superposition of electromagnetic
waves. Energy and momentum of a wave. Standing waves. Interference and
coherence of electromagnetic waves. Problems. CHAPTER 5. ELECTROMAGNETIC
FIELDS AND WAVES AT THE INTERFACE BETWEEN TWO MEDIA. Boundary conditions
and inverse boundary value problem in electromagnetism Boundary conditions
for the electric field of an electromagnetic wave. Boundary conditions for
the magnetic field of an electromagnetic wave. Laws of reflection and
refraction of waves. Reflection and transmission coefficients of waves.
Total internal reflection. Reflection of a wave from a dielectric layer.
Problems. CHAPTER 6. ELECTROMAGNETIC WAVES IN ANISOTROPIC AND OPTICALLY
ACTIVE MEDIA. The structure of plane wave in an anisotropic medium.
Dispersion relation and normal waves. Waves in uniaxi
PART I: ELECTRIC AND MAGNETIC FIELDS IN ISOTROPIC MEDIA. CHAPTER 1.
ELECTROSTATICS. Electric charges, electric charge conservation law,
Coulomb's law. Electric field vector, principle of superposition. Electric
potential and electric field energy. Gauss's law for the electric field.
Relation between the electric field and the electric potential. Poisson's
and Laplace equations. Electric field in a medium, electric displacement.
Problems. CHAPTER 2. MAGNETOSTATICS. Interaction of moving charges. The
field of moving charges and currents, the Biot-Savart law. Ampere's law.
Magnetic field of a solenoid. Magnetic field in a medium, magnetic field
intensity. Problems. CHAPTER 3. MAXWELL'S EQUATIONS FOR ELECTROMAGNETIC
FIELDS. Faraday's law. Self-inductance and mutual inductance. Magnetic
field energy. Transient processes in circuits with capacitors and
inductors. Displacement current. Maxwell's equations. Problems. PART II:
ELECTROMAGNETIC WAVES IN HOMOGENEOUS, HETEROGENEOUS AND ANISOTROPIC MEDIA.
CHAPTER 4. ELECTROMAGNETIC WAVES IN HOMOGENEOUS MEDIA WITHOUT ABSORPTION.
Electromagnetic wave spectrum. Wave equation. Plane monochromatic waves.
olarization of electromagnetic waves. Superposition of electromagnetic
waves. Energy and momentum of a wave. Standing waves. Interference and
coherence of electromagnetic waves. Problems. CHAPTER 5. ELECTROMAGNETIC
FIELDS AND WAVES AT THE INTERFACE BETWEEN TWO MEDIA. Boundary conditions
and inverse boundary value problem in electromagnetism Boundary conditions
for the electric field of an electromagnetic wave. Boundary conditions for
the magnetic field of an electromagnetic wave. Laws of reflection and
refraction of waves. Reflection and transmission coefficients of waves.
Total internal reflection. Reflection of a wave from a dielectric layer.
Problems. CHAPTER 6. ELECTROMAGNETIC WAVES IN ANISOTROPIC AND OPTICALLY
ACTIVE MEDIA. The structure of plane wave in an anisotropic medium.
Dispersion relation and normal waves. Waves in uniaxi
ELECTROSTATICS. Electric charges, electric charge conservation law,
Coulomb's law. Electric field vector, principle of superposition. Electric
potential and electric field energy. Gauss's law for the electric field.
Relation between the electric field and the electric potential. Poisson's
and Laplace equations. Electric field in a medium, electric displacement.
Problems. CHAPTER 2. MAGNETOSTATICS. Interaction of moving charges. The
field of moving charges and currents, the Biot-Savart law. Ampere's law.
Magnetic field of a solenoid. Magnetic field in a medium, magnetic field
intensity. Problems. CHAPTER 3. MAXWELL'S EQUATIONS FOR ELECTROMAGNETIC
FIELDS. Faraday's law. Self-inductance and mutual inductance. Magnetic
field energy. Transient processes in circuits with capacitors and
inductors. Displacement current. Maxwell's equations. Problems. PART II:
ELECTROMAGNETIC WAVES IN HOMOGENEOUS, HETEROGENEOUS AND ANISOTROPIC MEDIA.
CHAPTER 4. ELECTROMAGNETIC WAVES IN HOMOGENEOUS MEDIA WITHOUT ABSORPTION.
Electromagnetic wave spectrum. Wave equation. Plane monochromatic waves.
olarization of electromagnetic waves. Superposition of electromagnetic
waves. Energy and momentum of a wave. Standing waves. Interference and
coherence of electromagnetic waves. Problems. CHAPTER 5. ELECTROMAGNETIC
FIELDS AND WAVES AT THE INTERFACE BETWEEN TWO MEDIA. Boundary conditions
and inverse boundary value problem in electromagnetism Boundary conditions
for the electric field of an electromagnetic wave. Boundary conditions for
the magnetic field of an electromagnetic wave. Laws of reflection and
refraction of waves. Reflection and transmission coefficients of waves.
Total internal reflection. Reflection of a wave from a dielectric layer.
Problems. CHAPTER 6. ELECTROMAGNETIC WAVES IN ANISOTROPIC AND OPTICALLY
ACTIVE MEDIA. The structure of plane wave in an anisotropic medium.
Dispersion relation and normal waves. Waves in uniaxi