Hiqmet Kamberaj is a Full Professor at International Balkan University. He has published more than 60 articles and book chapters in reputed journals. In April 2020, he published the book "Molecular Dynamics Simulations in Statistical Physics: Theory and Applications" through Springer, and in September 2021, the textbook "Classical Mechanics" through De Gruyter. His articles focus on understanding the structure, dynamics, and thermodynamics of macromolecular systems using the laws of physics and biochemistry and applied mathematics. In addition, his research includes applications of machine learning approaches. His teaching interests include information theory, electromagnetic theory, general physics, algorithms, discrete mathematics, and computer programming, theoretical physics, statistical physics, electrodynamics, and medical physics.

Provides a comprehensive review of the rapidly expanding field of electromagnetism in materials science

Includes in-depth discussions on electromagnetic theory

Contains solved problems that can be discussed in classrooms

1. Electrostatics in Free Space

2. Gauss's Law

3. Electrostatic Potential

4. Capacitance and Dielectrics

4.5 Electrostatics of Macroscopic Media

5. Electric Current

5.3 Resistance and Ohm's Law

6. Magnetic Fields

7. Sources of Magnetic Field

8.4 The Magnetic Field of the Earth

9. Maxwell Equations of Electromagnetism

9.1 Maxwell's Equations of EM

9.2 Vector and Scalar Potential of EM Field

9.3 EM Field Energy & Conservation Law

9.4 Conservation Law of Momentum

9.5 Charged Particles in EM Fields

9.6 Macroscopic Maxwell Equations

10.1 Moving Conductor in a Closed Circuit

10.1.1 Induced Electric Potential and Electric Field

10.1.2 Generators and Motors

10.2 Inductance

10.2.1 Self-inductance

10.3 Oscillations in an LC Circuit

10.5 The RLC Circuit

10.5.1 Case 1

10.5.2 Case 2

10.5.3 Case 3

10.6 Alternating Current Circuits

10.6.1 AC Sources and Phases

10.6.2 Resistors in an AC Circuit

10.6.3 Inductors in an AC Circuit

10.6.5 The RLC Series in an AC Circuit

Power in the AC Circuit

10.8 Resonance in the RLC Series Circuit

11. Some Applications of Electromagnetic Theory

11.1 Electrostatic Properties of Macromolecular Solutions

11.1.1 The pH and Equilibrium Constant

11.1.2 Charge on DNA and Proteins

11.1.3 Charge States of Amino Acids

11.1.5 Energy Cost of Assembling a Collection of Charges

11.1.7 Calculation of pKa of Amino Acids in Macromolecules

11.2 Wireless Charging

11.2.1 Tightly Coupled Wireless Power Systems

11.2.2 Loosely Coupled Highly Resonant Systems

11.3 Superconductivity

12. Electromagnetic Waves

12.1 Electromagnetic Waves in Vacuum

12.2 Electromagnetic Waves in Medium

12.3 Transmission Lines

12.4 Coherence of Electromagnetic Waves

12.6 Reflection of Electromagnetic Waves

13. Molecular Optics

13.1 Dispersion of Electromagnetic Waves in Gases

13.3 Conduction Models

13.5 Wave Propagation in Dilute Plasmas

A. Vectorial Analysis

A.1 Vector Calculus

A.2 Vector Differential Operators

A.3 Stokes' Formula

A.4 Gauss's Formula

A.5 Some Useful Formula

A.6 Laplasian

A.7 Curvilinear Coordinates

References