Suspense

You’re in a pitch-black room with a clock that chimes the hour and also chimes once at each quarter hour. If you hear the clock chime once, what’s the longest you’ll have to wait to be sure what time it is?

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The longest interval marked by single chimes is 1 hour and 45 minutes (from 12:15 to 2:00). But in that event you’ll be able to infer at 1:45 that it will be 2:00 in 15 minutes. So the answer is an hour and a half. From Erwin Brecher’s Mind Bending Conundrums, 2013.

June 5, 2026June 4, 2026 | Puzzles

A Topology Puzzle

June 3, 2026June 2, 2026 | Puzzles · Science & Math

Prayer Vigil

A puzzle by F. Nazarov from the May-June 1996 issue of Quantum:

On a certain familiar island, some residents always lie, and the others always tell the truth. The total population is 100. Each resident worships one of three gods, the sun god, the moon god, or the Earth god. One day a visitor asks each resident three questions:

Do you worship the sun god?
Do you worship the moon god?
Do you worship the Earth god?

Sixty residents answer yes to the first question, 40 to the second, and 30 to the third. How many residents are liars?

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Each truth-teller answered yes to one question, and each liar answered yes to two questions. That means that the total number of yeses, 60 + 40 + 30 = 130, equals the number of truth-tellers plus twice the number of liars. The number of truth-tellers plus once the number of liars is 100, the total population. So the number of liars is 130 – 100 = 30. Obligatory John Finnemore sketch:

June 2, 2026June 1, 2026 | Puzzles

Forefather

A problem from the Third Penguin Problems Book, 1946:

“Flutterby’s grandfather died in 1872. Flutterby died one hundred and thirty-one years after his grandfather was born. Their ages add up to one hundred and five years. When was Flutterby born?”

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“131 – 105 = 26. Therefore there was a gap of 26 years between the grandfather’s death and Flutterby’s birth. Therefore Flutterby was born in 1898.”

May 28, 2026May 27, 2026 | Puzzles

Chestnut

Make this equation true with a single stroke of the pen to the left-hand side:

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May 18, 2026May 17, 2026 | Puzzles

A Union Cipher

This baffling message illustrates a cipher adopted by the Union Army in 1862:

TO GEORGE C. MAYNARD, Washington

Regulars ordered of my to public out suspending received 1862 spoiled thirty I dispatch command of continue of best otherwise worst Arabia my command discharge duty of my last for Lincoln September period your from sense shall duties the until Seward ability to the I a removal evening Adam herald tribune.

PHILIP BRUNER

The address and signature are “covers” that don’t enter into the cipher. The first word, Regulars, is a code indicating that the original message had been written in five columns of nine words each. Tribune, herald, spoiled, Seward, for, and worst are null words; Lincoln is code for Louisville, Kentucky; Adam means General Henry Wager Halleck; and Arabia is code for Major General Don Carlos Buell. The word Period indicates a full stop. This had been the original message:

Louisville, Kentucky
September thirty 1862

General Halleck:

(Adam)   (period)   I           received     last
evening  your       dispatch    suspending   my
removal  from       command.    Out          of
a        sense      of          public       duty,
I        shall      continue    to           discharge
the      duties     of          my           command
to       the        best        of           my
ability  until      otherwise   ordered.

D.C. Buell,
Major General

This message had been enciphered by reading up the fourth column, down the third, up the fifth, down the second, and up the first; inserting the null words; and encoding the most sensitive particulars. The system worked well until July 1864, when Union cipher operator Stephen L. Robinson was captured by Confederate guerrillas and the key seized.

(John Laffin, Codes and Ciphers Secret Writing Through the Ages, 1964.)

May 11, 2026May 10, 2026 | History · Puzzles · Science & Math

Conclusions

From John Boyce Bennett’s 1980 logic textbook Rational Thinking:

If it’s false that no dopips are fraks, characterize each of these propositions as true, false, or doubtful:

a. All dopips are fraks.
b. Few dopips are fraks.
c. Some dopips are fraks.
d. No fraks are dopips.
e. Some dopips are not fraks.

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If it’s false that no dopips are fraks, then some dopips are fraks, so c is true. That in turn makes d false and the other statements doubtful.

May 10, 2026May 9, 2026 | Puzzles

Black and White

puig y puig chess problem

By Esteban Puig y Puig, Skakbladet, 1906. White to mate in two moves.

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White wins with the very surprising 1. Ra4! If Black takes the rook then the bishop will mate; if he tries to flee then the queen will finish the job.

May 8, 2026May 7, 2026 | Puzzles

Census Trouble

A curious puzzle by Stanley Rabinowitz, from the Spring 1984 issue of Pi Mu Epsilon Journal:

In the little hamlet of Abacinia, two different base systems are used, and everyone speaks the truth. One resident said, “26 people use my base, base 10, and only 22 people speak base 14.” Another said, “Of the 25 residents, 13 are bilingual and 1 is illiterate.” How many people live in Abacinia?

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This solution is by Rogm Kuehl: Let the first resident speak base b. Then the second resident speaks base b + 4 since in that base the total population will be represented by a smaller numeral (25) than the numeral used by the first speaker as is the case. The total population is therefore 2(b + 4) + 5 = 2b + 13 . The number of people speaking base b, according to the first speaker, is 2b + 6 and the number speaking base b + 4 is 2b + 2. According to the second speaker 1(b + 4) + 3 = b + 7 people speak both bases and 1 is illiterate. Therefore the total population is (2b + 6) + (2b + 2) + 1 – (b + 7) = 3b + 2. Equating this to 2b + 13, we get that the two bases are b = 11 b + 4 = 15. Now the total population, 2b + IS, is 35 (base ten).

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May 5, 2026May 4, 2026 | Puzzles

Track Record

A problem from the October 1964 issue of Eureka, the journal of the Cambridge University Mathematical Society:

“At noon precisely, a train leaves A for B, and another leaves B for A. They pass after 51 minutes. Each train stays 27 minutes at its destination and then returns by the same route. The trains from A and B travel throughout with constant speeds of 23 m.p.h. and 39 m.p.h., respectively. At what time do they pass for the second time?”

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3 p.m. (3 × 51 + 27 minutes past noon). 05/02/2026 UPDATE: Reader Catalin Voinescu sent a diagram: (Thanks, Catalin.) 05/08/2026 UPDATE: Reader Robert Filman sent a verbal explanation: Let d be the distance between A and B. Trains a and b meet after 51 minutes; at that point, they together have traveled d. The second meeting happens after a has traveled d to get from A to B, and b has traveled d to get from B to A, and they’ve together traveled d to meet again. So the two trains have traveled 3d at the second meeting, and together they take 51 minutes to do a d, so their traveling time is 153 minutes. Add the 27 minutes spent before return journeys, and we get 180 minutes total, or 3pm. Amusingly, their actual speeds don’t matter, as long as the faster train doesn’t overtake the other (that is, as long as the slower train reaches its other station), which is precluded by the problem statement. (Thanks, Robert.)

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May 1, 2026May 8, 2026 | Puzzles