\textbf{Update on Tests of the Standard Model from the Qweak Experiment}

The final results of the Qweak collaboration were published last year (Androic, et al., Nature 557, 207 (2018)). That work describes how the proton's weak charge was extracted from the parity-violating asymmetry measured in ep scattering at Q$^{\mathrm{2}}=$0.0248 (GeV/c)$^{\mathrm{2}}$. Here we describe a new fitting technique which has the advantage that the extrapolation is linear in Q$^{\mathrm{2}}$. The weak charge obtained in this new procedure is consistent with that obtained in the recent publication. We provide some new and interesting comparisons of the Qweak sin$^{\mathrm{2}}\theta_{\mathrm{W}}$ result with the predicted running and Z-pole results. We explore the flavor dependence of the mass reach from the Qweak experiment in the context of potential new weak-charge experiments on the proton and in atomic nuclei. We also show the dependence of the mass reach on coupling strength, highlighting a few examples of the limits set for specific new physics.