Mathematics of radio engineering

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Diagram of the electric fields (blue) and magnetic fields (red) radiated by a dipole antenna (black rods) during transmission.

The mathematics of radio engineering is the application of electromagnetic theory to radio-frequency engineering, using conceptual tools such as vector calculus and complex analysis.^[1]^[2] Topics studied in this area include waveguides and transmission lines, the behavior of radio antennas, and the propagation of radio waves through the Earth's atmosphere. Historically, the subject played a significant role in the development of nonlinear dynamics.^[3]

See also

References

↑ Blaunstein, Nathan; Christodoulou, Christos; Sergeev, Mikhail (2016-10-14) (in en). Introduction to Radio Engineering. CRC Press. ISBN 9781315350080. https://books.google.com/books?id=kIeKDQAAQBAJ.
↑ Räisänen, Antti V.; Lehto, Arto (2003) (in en). Radio Engineering for Wireless Communication and Sensor Applications. Artech House. ISBN 9781580536691. https://books.google.com/books?id=m8Dgkvf84xoC.
↑ Israel, Giorgio (2004). "Technological Innovation and New Mathematics: van der Pol and the Birth of Nonlinear Dynamics" (in en). Technological Concepts and Mathematical Models in the Evolution of Modern Engineering Systems. Birkhäuser, Basel. pp. 52–77. doi:10.1007/978-3-0348-7951-4_3. ISBN 9783034896337. https://sites.google.com/site/giorgioisrael/Art92.pdf.

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