| Name | Integral Form | Differential Form | | :--- | :--- | :--- | | Gauss’s law (E) | $\oint \vecE \cdot d\vecS = Q / \epsilon_0$ | $\nabla \cdot \vecE = \rho / \epsilon_0$ | | Gauss’s law (B) | $\oint \vecB \cdot d\vecS = 0$ | $\nabla \cdot \vecB = 0$ | | Faraday’s law | $\oint \vecE \cdot d\vecl = -\int \frac\partial \vecB\partial t \cdot d\vecS$ | $\nabla \times \vecE = -\frac\partial \vecB\partial t$ | | Ampere–Maxwell law | $\oint \vecH \cdot d\vecl = I + \int \frac\partial \vecD\partial t \cdot d\vecS$ | $\nabla \times \vecH = \vecJ + \frac\partial \vecD\partial t$ |
Murthy TVS Arun's book on "Electromagnetic Field Theory and Problems" is a comprehensive textbook that covers the fundamental concepts and problems in electromagnetic field theory. The book provides a detailed treatment of the subject, including the mathematical foundations, the physical principles, and the applications. | Name | Integral Form | Differential Form
TVS Arun Murthy is well-regarded for breaking down complex physical phenomena into digestible mathematical models. His book serves as a bridge between theoretical physics and practical engineering applications. While many textbooks focus heavily on derivations, Murthy’s work is characterized by its pedagogical balance: His book serves as a bridge between theoretical
Each chapter typically concludes with a summary, important formulae, review questions, and multiple-choice questions. S Chand Publishing Digital Availability Calculation of Capacitance for different geometries
Application of Gauss’s Law to various charge distributions. Calculation of Capacitance for different geometries. Poisson’s and Laplace’s equations. 3. Magnetostatics
Characteristic impedance, radiation resistance, and dielectric constant. Components: Dipoles, capacitors, inductors, and boundary conditions. Vector Calculus: Poynting vector, displacement current, and flux density. Google Books Accessing the Content
: Includes specialized chapters on Transmission Lines , Waveguides , and recently added sections on Antenna Basics and Antenna Arrays to align with modern university syllabi. Key Features