\input zb-basic
\input zb-matheduc
\iteman{ZMATH 2015e.00608}
\itemau{Bergold, Helmut}
\itemti{A generalization of Pohlke's theorem. (Eine Verallgemeinerung des Satzes von Pohlke.)}
\itemso{Elem. Math. 69, No. 2, 57-60 (2014).}
\itemab
This generalised theorem states: Any two parallelepipeds in 3-space can be rotated in such a way that they ``look identical'', meaning that their projections onto a plane perpendicular to the direction of view are congruent. For the proof, one can assume that the orthogonal projection $O$ is along the 3-axis onto the 1-2-plane. The vectors spanning the edges of the two parallelepipeds are written as the columns of the two matrices $V_1$ and $V_2$, respectively. The statement of the theorem then translates into $OW_1 V_1=OW_2 V_2$ for suitable conformal-orthogonal transformation matrices $W_1,W_2$. The author then proves that for any 3-by-3-matrix $M$ of rank $\geq 2$, there exist suitable $W_1,W_2$ such that $OW_1M=OW_2$. In particular, this holds for $M=V_1 V_2^{-1}$, which proves the theorem.
\itemrv{Wolfgang Globke (Adelaide)}
\itemcc{G40 H60}
\itemut{Pohlke's theorem; elementary geometry; orthogonal projections}
\itemli{doi:10.4171/EM/247}
\end