Rate My Professor Andrew Seagar

Dr. Andrew Seagar is a Senior Lecturer in the School of Engineering and Built Environment at Griffith University, with a focus on Electrical and Electronic Engineering. He holds key leadership roles, including Director of the Bachelor of Engineering Programs at the Gold Coast campus, Program Director for the Bachelor of Engineering (Honours) in Electrical and Electronic Engineering, and Head of Discipline for Electrical and Electronic Engineering. Seagar earned his graduate degree from the University of Canterbury in Christchurch, New Zealand, in 1983. He also holds a PhD from the University of Canterbury, where his doctoral thesis titled 'Application of Geometric Algebra to Electromagnetic Scattering: The Clifford-Cauchy-Dirac Technique' explored advanced mathematical techniques for electromagnetic problems. Over his career spanning more than four decades, Seagar has held positions as a scientist, engineer, and academic in New Zealand, Canada, and Australia. He is a Senior Member of the IEEE with over 30 years of membership and has contributed to professional activities such as leading journal club discussions and serving on conference committees.

Seagar's research interests center on computational electromagnetics and the application of Clifford algebra to solve electromagnetic field problems. His notable contributions include the 2023 book 'Numerical Calculations in Clifford Algebra: A Practical Guide for Engineers and Scientists,' published by Wiley, which provides practical implementations for engineers in fields like electrical and biomedical engineering. Key peer-reviewed publications encompass 'Calculation of Electromagnetic Fields in Three Dimensions using the Reduced Scalar Potential and the Multidimensional Cauchy Integral' (2011, IEEE Transactions), 'Calculation of Power Line Fields Between Circular Conductors' (2013), 'Magnetic Damping Effects in Forced-Oscillation Vibrating-Wire Viscometer' (2012, Journal of Low Temperature Physics), 'Integration of SiC Devices and High-Frequency Transformer: Modeling, Design, and Experimental Verification' (2023, Energies), and recent works on wireless power transfer systems such as 'High-Frequency Transformer with Integrated SiC Devices for Wireless Power Transfer' (2025). At Griffith University, he teaches and supervises students in engineering courses, emphasizing practical skills in electrical and electronic engineering. His Google Scholar profile confirms his specialization in computational electromagnetics, with verified affiliation at Griffith University.