Electromagnetic Field Theory And Transmission By Lines GSN Raju
- Publisher: PHYSICS
- Availability: In Stock
- SKU: 48952
- Number of Pages: 584
Rs.1,160.00
Rs.1,395.00
Tags: advanced EM theory , antenna design , antenna principles , antenna theory , best books , Best Selling Books , BestBuy’s , circuit theory , communications engineering , Electromagnetic , electromagnetic compatibility , electromagnetic energy , electromagnetic interference , electromagnetic principles , electromagnetic pulse , electromagnetic systems , electromagnetic waves , electromagnetics , EM concepts , EM field analysis , EM field principles , EM research , EM spectrum , EM technology , EM textbooks , EM theory applications , EM theory basics , EM theory principles , EM theory resources , EM wave propagation , EM waves , engineering textbooks , finite difference methods , finite element methods , good books , GSN Raju , GSN Raju books , Maxwell's equations applications , microwave circuits , radar systems , RF engineering , satellite communication , telecom technology , telecommunications , transmission line theory , transmission lines , waveguide theory , waveguides
Electromagnetic Field Theory and Transmission by Lines, authored by GSN Raju, is a comprehensive guide that delves into the fundamental principles governing electromagnetic fields and their application in transmission lines. The book covers essential concepts such as Maxwell's equations, electromagnetic waves, transmission line theory, and waveguides, providing a thorough understanding of how electromagnetic phenomena influence modern communication systems and electrical networks.
Key Points:
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Maxwell's Equations: Explains the four fundamental equations that describe how electric and magnetic fields interact with each other and with charges and currents.
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Electromagnetic Waves: Details the propagation of electromagnetic waves through different media, including free space and materials with varying permittivity and permeability.
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Transmission Line Theory: Covers the analysis of transmission lines, including impedance matching, reflection, and transmission of signals over long distances.
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Waveguides: Discusses the principles and applications of waveguides in guiding and confining electromagnetic waves, crucial in microwave and radar systems.
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Antenna Theory: Introduces antenna principles, radiation patterns, and antenna types, essential for wireless communication and radar systems.
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Electromagnetic Interference (EMI): Addresses EMI phenomena and mitigation techniques in electronic circuits and communication systems.
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Numerical Methods in EM Field Analysis: Discusses computational techniques like finite element methods (FEM) and finite difference methods (FDM) used in analyzing electromagnetic fields.
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Applications in Telecommunication: Explores practical applications of electromagnetic theory in designing antennas, microwave circuits, and satellite communication systems.
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Advanced Topics in EM Field Theory: Includes advanced topics such as electromagnetic compatibility (EMC), electromagnetic pulse (EMP), and electromagnetic wave propagation in complex environments.
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Future Trends: Considers emerging trends in electromagnetic field theory, including applications in wireless power transfer, metamaterials, and quantum electromagnetics.
In conclusion, Electromagnetic Field Theory And Transmission By Lines GSN Raju serves as an indispensable resource for students, engineers, and researchers seeking a deep understanding of electromagnetic theory and its practical applications in modern technology.
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Writer ✤ Lines G S N Raju
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