Shaw, Joseph2024-07-092024-07-092013J. A. Shaw, “Radiometry and the Friis Transmission Equation,” Am. J. Physics 81(1), 33-37 (2013).0002-9505https://scholarworks.montana.edu/handle/1/18664To more effectively tailor courses involving antennas, wireless communications, optics, and applied electromagnetics to a mixed audience of engineering and physics students, the Friis transmission equation—which quantifies the power received in a free-space communication link—is developed from principles of optical radiometry and scalar diffraction. This approach places more emphasis on the physics and conceptual understanding of the Friis equation than is provided by the traditional derivation based on antenna impedance. Specifically, it shows that the wavelength-squared dependence can be attributed to diffraction at the antenna aperture and illustrates the important difference between the throughput (product of area and solid angle) of a single antenna or telescope and the throughput of a transmitter-receiver pair.en-USC 2013 American Association of Physics TeachersElectromagneticsOpticsApplied mathematicsElectrical engineeringRadiometry and the Friis transmission equationArticle