The transient Couette and Poiseuille channel flow solutions with different Navier slip conditions on the wall boundaries require the solution of a non-linear root-finding problem. A novel algorithm is developed that automates the computation of these roots with arbitrary precision and for general input parameters. The obtained results show a significant improvement to available coefficient values for this analytic solution. A parameter variation for the slip lengths reveals a new power law for the first series coefficient that governs the stability of the solution and is essential for slip length computations from molecular dynamics simulations. Based on the new algorithm, the time scales for the asymptotic approach to the stationary solution are quantified. A double-precision implementation and an arbitrary precision implementation provide a fast, verified, and highly accurate method to obtain benchmark quality reference solutions or a module for more general applications.
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