MHB What is the Pigeonhole Principle Problem in the African Rally?

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The discussion centers on the Pigeonhole Principle as applied to the African Rally problem presented in "The Art of Mathematics" by Bela Bollobas. The problem illustrates that starting from any town in the rally, one cannot complete the circuit without running out of fuel at some point. By defining towns using indices \(k_i\) and \(k_{i+1}\), the solution demonstrates that repeated sequences of towns must occur, leading to a contradiction regarding fuel sufficiency. This conclusion effectively utilizes the Pigeonhole Principle to validate the impossibility of completing the rally.

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The following problem and solution (Problem 7 - African Rally) is presented in "the Art of Mathematics" by Bela Bollobas:

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Its solution is
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I am fine until I get to the sentence that starts
1594753032982.png
...

and then I'm lost in trying to understand the use of the i and j indices. Any help would be appreciated.
 
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The idea is this. We are supposing that no matter which town you start from, you cannot drive round the entire circuit without running out of fuel at some stage. So starting from town $k_i$, let town $k_{i+1}$ be the first town on the circuit that cannot be reached. (In terms of Bollobas's notation, this means that $S[k_i,k_{i+1})<0$.) Now start at town $k_{i+1}$ and let town $k_{i+2}$ be the first town that you cannot reach from there. If you continue this process, you must eventually (pigeonhole principle!) come to a town that has already appeared in this sequence. So during that journey you will have completed a number ($m$) of complete circuits, in stages each of which involve running out of fuel. But that contradicts the fact that there is sufficient fuel to allow for a full circuit to be completed.
 
Very clearly explained. Thank you.
 

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