The Solution of Circuit Problems. Mathematical Methods of Investigation Resulting from the Application of Fourier's Integral

Abstract

Circuit theory; current in any network; expansion of fundamental integral in Bessel's series. This is treated quite fully, and is shown to be applicable to circuits with either lumped or distributed impedances. If the upper limit for the roots of the equation for the impedance function is known, the problem may be reduced to the expansion of a function in a Fourier series. By this method, the principal difficulties of computation are included in those processes which can be mechanically performed. This method is, therefore, a valuable addition to those commonly used in the solution of problems relating to complicated circuits.