The focus is on generic problem-solving techniques - both mathematical and physically-intuitive, and the presentation of basic electromagnetic theorems - Poynting, energy, uniqueness, and reciprocity - explained from a physical perspective. O元919779W Page_number_confidence 96.23 Pages 586 Partner Innodata Ppi 300 Rcs_key 24143 Republisher_date 20200526112754 Republisher_operator Republisher_time 835 Scandate 20200515040852 Scanner Scanningcenter cebu Scribe3_search_catalog isbn Scribe3_search_id 0132258714 Tts_version 3.This introduction to electromagnetic waves emphasizes concepts, examples, and problem-solving techniques having wide applicability, and relies only on basic physics and mathematics - rather than electrostatics, magnetostatics, and quasitatics. Numerical ConstantsĪccess-restricted-item true Addeddate 09:01:50 Associated-names Morgenthaler, Ann W Kong, Jin Au, 1942- Boxid IA1803703 Camera USB PTP Class Camera Collection_set printdisabled External-identifier Introduction to Maxwell's Equations and Waves - Radiation by Currents and Charges in Free Space - Waves in Media - Waves at Planar Boundaries - Transmission Lines - Transmission Line Systems - Waveguides - Resonators - Antennas - Acoustics - App.
For students and practicing engineers interested in electromagnetic wave phenomena Presents the fundamental concepts of plane waves, phasors, polarization, energy, power, and force early - and repeatedly applies them throughout the text to problems with progressively more complex boundary conditions. Progresses from simple wave propagation in unbounded free space to antenna and resonator design. This introduction to electromagnetic waves emphasizes concepts, examples, and problem-solving techniques having wide applicability, and relies only on basic physics and mathematics - rather than electrostatics, magnetostatics, and quasitatics.
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