54 minutes. Between the ant’s two encounters with the minute hand, the hand passed over 45 minute marks. In that time, the ant passed over 105 minute marks (45 minutes plus one complete circumference). The ratio of their speeds was thus 45/105, or 3/7. If x minutes elapsed before their first encounter, then in that time the minute hand advanced by x minutes while the ant crawled over 30 – x minute marks. So x/(30 – x) = 3/7, which gives x = 9 minutes, and the total time is 9 + 45 = 54 minutes.

Promote the h7 pawn to a black knight! Now Black has only two moves, both of which lead to mate:

1. … Nf7 2. Bf5#
2. … Kh7 2. Nf8#

The Lion can say “I lied yesterday” only on Mondays and Thursdays. The Unicorn can say it only on Thursdays and Sundays. So today must be Thursday.

Obligatory John Finnemore sketch:

715 × 46 = 32890.

When Albert claims that Bernard does not know Charlie’s birthday, he is saying that he knows that the correct day occurs more than once in the list. In other words, he is saying that Charlie’s birthday is not Feb 19, 2000, and the only way he could know that is that he knows that the month is not February.

So by making this claim Albert has reduced the list for everyone to:

• Apr 14, 1999
• Mar 14, 2000
• Mar 15, 2000
• Apr 16, 2000
• Apr 15, 2000
• Mar 15, 2001
• Apr 14, 2001
• Apr 16, 2001
• May 14, 2001
• May 16, 2001
• May 17, 2001

When Bernard says that it is true that he does not know Charlie’s birthday, it tells everyone that even with the restricted list the correct day occurs more than once in the list. So everyone can thus eliminate May 17, 2001.

Furthermore, the claim that Cheryl also does not know Charlie’s birthday is a claim that Bernard knows that the year occurs more than once on the remaining list.

This rules out Apr 14, 1999, and since Bernard could only rule this out by knowing that the day was not 14, everyone can further reduce the list to:

• Mar 15, 2000
• Apr 16, 2000
• Apr 15, 2000
• Mar 15, 2001
• Apr 16, 2001
• May 16, 2001

When Cheryl says that Albert still has not figured out Charlie’s birthday, she is telling everyone that given the new list the month occurs more than once and thus rules out May 16, 2001. This tells everyone that Cheryl knows that the year is not 2001 and the list can be reduced to:

• Mar 15, 2000
• Apr 16, 2000
• Apr 15, 2000

When Bernard then claims to know the date he is saying that the day occurs only once among the 3 remaining choices, thus telling everyone that Charlie’s birthday is Apr 16, 2000.

This solution is by Li Zhou of Polk Community College in Winter Haven, Florida. Draw an arrow on each domino that’s covering a black square, starting on the black square and continuing through the white square. Now every black square on the board (except for the one that was exposed at the start) is covered by the tail of an arrow, and each arrow points toward a neighboring black square.

This provides an answer. For any black square that’s covered at the start, the arrows now indicate a route leading to the uncovered black square. Shifting the dominoes along this route will uncover the chosen black square.

Will every such route find its way to the uncovered square? Yes. The alternative would be some “loop” of arrows within the diagram. Any such loop would enclose an odd number of squares, and such an interior could not be tiled by dominoes. So we know it doesn’t exist.

From the 1997 Russian Olympiad for high school students, via American Mathematical Monthly, April 2004 (Problem 10960). A solution using a graph model appears in the 1999 pamphlet Mathematical Olympiads 1997-1998: Problems and Solutions From Around the World, by T. Andreescu and K. Kedlaya.

555870 + 5550 + 5580 = 567000

974 + 3861307674 + 767430974 = 38144 + 7674 + 386130 + 4628307674

250 × 250 + 286 × 9378 = 431 × 6368