Jumping Kangaroos

A puzzle by National Security Agency mathematician David B., from the agency’s October 2017 Puzzle Periodical:

Joey, the baby kangaroo has been kidnapped and placed at 2¹⁰⁰ on a number line.

His mother, Kandice the Kangaroo, is at 0 on the number line, and will try to save him. Kandice normally jumps forward 6 units at a time. Guards have been placed at n³ on the number line, for every integer n≥1. If Kandice lands on a number with a guard on it, she will be caught and her mission will fail. Otherwise, she will safely sneak past the guard. Whenever she successfully sneaks past a guard, she gets an adrenaline rush that causes her next jump (the first jump after passing the guard) to take her 1 unit farther than it normally would (7 units instead of 6). (After a single 7-unit jump, she resumes jumping 6 units at a time, until the next time she sneaks past a guard.)

Will Kandice the Kangaroo reach (or pass) her son Joey safely?

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Yes. First, note that two consecutive cubes are always separated by one more than a multiple of 6. To see this, note that (n+1)³ = n³ + 3n² + 3n + 1, so (n+1)³ – n³ = 3n(n+1) + 1. n must be either even or odd; if it is even, then n(n + 1) is even, and if it is odd, then n+1 is even, so again, n(n+1) is even. Therefore, 3n(n+1) is divisible by both 2 and 3, so it must be a multiple of 6, so the difference (n+1)³ – n³ is one more than a multiple of 6. Now, it’s easy to check that Kandice will safely jump over the first two guards (at 1 and 8). Suppose Kandice later gets caught and Gary the Guard is the first guard who catches her. Since passing the guard previous to Gary, Kandice would have finished one jump of size 7 and several jumps of size 6. Because the distance between the guards is one more than a multiple of 6 (as shown in this illustration), counting backwards we see this pattern would have forced Kandice to land on the previous guard also. But this is impossible, since Gary was the first guard to catch Kandice. So Gary does not exist and Kandice will never be caught! Key: Cube numbers are the positions of the guards. Evens and odds alternate, so if some number n isn’t even, then the next number (n+1) must be even.

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July 18, 2025July 17, 2025 | Puzzles

Current Affairs

A problem by G. Galperin, from the May-June 1995 issue of Quantum:

A raft and a motorboat depart simultaneously from Point A on a riverbank and begin drifting and speeding downstream, respectively, toward Point B. At the same moment, a second motorboat, of the same type as the first, sets out from Point B heading upstream. When the first motorboat reaches B, will the floating raft be closer to Point A or to the second motorboat?

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This intuitive solution is by V. Dubrovsky. Imagine a third point, C, that’s as far upstream from A as A is from B (so CA = AB). And imagine a third motorboat that parallels the movements of the first, setting out from point C and heading downstream at the same time. The third and second motorboats are equidistant from the raft when they begin their journeys, and both move at the same speed relative to the raft (and to the surface of the water). So they’ll remain equidistant from the raft as they progress toward it. When the first motorboat reaches B, the third will reach A. At that moment the raft will be the same distance from the second motorboat and from Point A (now occupied by the third motorboat). That’s the answer.

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July 17, 2025July 16, 2025 | Puzzles

Odd Job

A problem by Russian mathematician Viktor Prasolov:

On a piece of graph paper, is it possible to paint 25 cells so that each of them has an odd number of painted neighbors? (“Neighboring” cells have a common side.)

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Let n_k be the number of painted cells with exactly k painted neighbors, and let N be the number of common sides of painted cells. Each common side belongs to exactly two painted cells, so $\displaystyle N = \frac{n_{1} + 2n_{2} + 3n_{3} + 4n_{4}}{2} = \frac{n_{1} + n_{3}}{2} + n_{2} + n_{3} + 2n_{4}.$ Since N is an integer, n₁ + n₃ is even and thus can’t be 25. (From Prasolov’s Problems in Plane and Solid Geometry.)

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July 10, 2025July 10, 2025 | Puzzles

The Sure Thing

In a 1905 short story by Jacob Elson, Mr. Brown laments that he cannot solve chess problems.

Mr. Pincus wagers $10 that “I can show you a two-move problem with three different lines of play which you would have to solve whether you wanted to or not.”

Brown accepts. After studying the board for 10 minutes, he says, “It’s a humbug, a confounded silly swindling humbug, but I am beat.” Here’s the position:

sure thing chess position

July 9, 2025July 8, 2025 | Puzzles

The Studious Bather

A puzzle from Chris Maslanka’s The Pyrgic Puzzler, 1987:

A bathtub will fill in 3 minutes if the plug is in and the cold tap only is turned on full. It will fill in 4 minutes if the plug is in and the hot tap only is turned on full. With the plug out and both taps off, a full tub will drain in 2 minutes. How long will it take to fill the empty tub if the plug is out and both taps are turned on full?

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If the bath’s volume is V, then the cold tap will fill it at a rate of V/3 and the hot tap at a rate of V/4. It will drain at a rate of V/2. Let t be the time it will take to fill it with the plug out and both taps on. Then (V/3 + V/4 – V/2)t = V (1/3 + 1/4 – 1/2)t = 1 and t = 12. (Via Barry R. Clarke’s Mathematical Conundrums, 2023.)

June 26, 2025June 24, 2025 | Puzzles

Row and Columns

A problem from the 2011 Moscow Mathematical Olympiad: In a certain square matrix, the sum of the two largest numbers in each row is r and the sum of the two largest in each column is c. Show that r = c.

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Well, suppose otherwise. If r and c aren’t equal then one is larger; suppose r > c. Draw a circle around the largest number in each row and a square around the next largest. Each of the circled numbers is at least r/2 (because each is the largest in its row), so each must occupy a different column. Now consider the largest number with a square around it; call that x, and call the circled number in its column y. Let z be the number in y‘s row that has a square around it. Now y + z = r (because they’re the two marked numbers in a row) and y + x = c. Because the largest number with a square around it is x, x must be greater than or equal to z, but this is incompatible with our assumption that r > c. So the assumption is wrong and r and c must be equal. From MIT mathematician Tanya Khovanova’s blog, via Peter Winkler’s Mathematical Puzzles, 2021.

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June 25, 2025June 24, 2025 | Puzzles

An “Excentrical Query”

From the Philadelphia Minerva, Feb. 13, 1796:

minerva conundrum

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Effeminacy.

June 23, 2025June 22, 2025 | Puzzles

Backward Baseball

In a retrograde analysis puzzle, one tries to deduce the history of a game from the current state of play. The most familiar examples concern chess, but Smith College mathematician Jim Henle worked out that it can also be done in baseball. This is the batting order of the Mudville Slugs:

Flynn
Blake
Casey
Hobbes
Davis
Shlabotnick
Thayer
Cooney
Barrows

We’re told also that in the ninth inning Casey came to bat for the fourth time, while the bases were loaded with two men out. Casey struck out, leaving the team with another loss. How many runs did Mudville score altogether?

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Each batter either gets on base or is put out. A player who gets on base either scores, makes an out, or is left on base when the inning ends. Hence each plate appearance will be recorded as an out, a run, or a player left on base: PA = outs + runs + left on base. In this game, we know that Casey appeared at the plate four times and was third in the lineup. So Casey, Flynn, and Blake each had four plate appearances, and their six teammates had three apiece. Thus the total number of plate appearances was 30. There are three outs per inning, so a nine-inning game produces 27 outs. Using the formula above, 30 = 27 + runs + left on base. Thus the number of runs plus the number of players left on base is 3. But the bases were loaded when Casey came up for the last time, and all three of these players were left on base when he struck out. So Mudville scored no runs in the game. (Jerry Butters and Jim Henle, “Baseball Retrograde Analysis,” Mathematical Intelligencer 40:4 [December 2018], 71-76.)

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June 13, 2025June 12, 2025 | Puzzles

The Puzzle Wall

“Suppose there was a pond, around which four poor men built their houses, thus:”

“Suppose four evil-disposed rich men afterwards built houses around the poor people, thus:”

“… and wished to have all the water of the pond to themselves. How could they build a high wall, so as to shut out the poor people from the pond?”

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From George Arnold et al., The Magician’s Own Book, 1857.

June 11, 2025June 10, 2025 | Puzzles

Black and White

morse chess problem

By Christopher Jeremy Morse. White to mate in two.

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It’s tempting to move the bishop, giving check, and then try to mate with the queen from b7, but the black king can run to f6 and escape. And checking with the queen along the long diagonal allows Black to flee via g8. The answer is the quiet 1. Kh6! and now, no matter which black pawn promotes, White has a ready mate. (If Black runs to g8, then 2. Be6 ends things neatly.) From The Problemist, 1974.

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June 3, 2025June 3, 2025 | Puzzles