Further exploration of Riemann's functional equation

Abstract

A previous exploration of the Riemann functional equation that focussed on the critical line, is extended over the complex plane. Significant results include a simpler derivation of the fundamental equation developed previously, and its generalization from the critical line to the complex plane. A simpler statement of the relationship that exists between the real and imaginary components of $\zeta(s)$ and $\zeta^{\prime}(s)$ on opposing sides of the critical line is developed, reducing to a simpler statement of the same result on the critical line. An analytic expression is obtained for the sum of the arguments of $\zeta(s)$ on opposite sides of the critical line, reducing to the analytic expression for $arg(\zeta(1/2+i\rho))$ first obtained in the previous work. Relationships are obtained between various combinations of $|\zeta(s)|$ and $|\zeta^{\prime}(s)|$, particularly on the critical line, and it is demonstrated that $arg(\zeta(1/2+i\rho))$ and $arg(\zeta^{\prime}(1/2+i\rho))$ uniquely define $|\zeta(1/2+i\rho)|$. A comment is made about the utility of such results as they might apply to putative proofs of Riemann's Hypothesis (RH).