Let us call a series $\sum_n x_n$ in a Banach space "good" if there exists a permutation $\sigma:\mathbb N\to\mathbb N$ such that the rearranged series $\sum_n x_{\sigma(n)}$ converges. 

Find a simple proof of the following theorem (which was proved by E.Steinitz in 1913 according to V.Kadets).

**Theorem.** A series $\sum_n x_n$ in a finite-dimensional Banach space $X$ is "good" if and only if for every linear function $f:X\to\mathbb R$ the series $\sum_n f(x_n)$ is "good".

(This problem was posed 24.09.2017 by Vaja Tarieladze from Tbilisi on [page 72][1] of [Volume 1][2] of the [Lviv Scottish Book][3]).


  [1]: http://www.math.lviv.ua/szkocka/viewpage.php?vol=1&page=72
  [2]: http://www.math.lviv.ua/szkocka/viewbook.php?vol=1
  [3]: http://www.math.lviv.ua/szkocka