Bundle adjustment is the gold standard for refining solutions to geometric computer vision problems. This paper develops an uncertainty visualization technique for bundle adjustment solutions to Structure from Motion problems}.Propagating uncertainty through an optimization— from measurement uncertainties to uncertainties in the resulting parameter estimates— is well understood. However, the calculations involved fail numerically for real problems. Often we cope by considering only individual variances, but this ignores the important mutual dependencies between parameters. The dominant modes of uncertainty in most models are large motions involving nearly all parameters at once. These frequently look like flexions, stretchings, and bendings in the overall scene structure.In this paper we present a numerically tractable method for computing dominant eigenvectors of the covariance of a Bundle Adjustment solution. We pay careful attention to the mismatched scales of rotational and translational parameters. Finally, we animate this spectral information. The resulting interactive visualizations (included in the supplemental) give insight into the quality and failure modes of a model. We hope that this work is a step towards broader uncertainty-aware computation for Structure from Motion.