Problems
In the diagram below, I wish to write the numbers \(6, 11, 19, 23, 25, 27\) and \(29\) in the squares, but I want the sum of the numbers in the horizontal row to equal the sum of the numbers in the vertical column. What number should I put in the blue square with the question mark?
There are two imposters and seven crewmates on the rocket ‘Plus’. How many ways are there for the nine people to split into three groups of three, such that each group has at least two crewmates? The two imposters and seven crewmates are all distinguishable from each other, but we’re not concerned with the order of the three groups.
For example: \(\{I_1,C_1,C_2\}\), \(\{I_2,C_3,C_4\}\) and \(\{C_5,C_6,C_7\}\) is the same as \(\{C_3,C_4,I_2\}\), \(\{C_5,C_6,C_7\}\) and \(\{I_1,C_2,C_1\}\) but different from \(\{I_2,C_1,C_2\}\), \(\{I_1,C_3,C_4\}\) and \(\{C_5,C_6,C_7\}\).
Draw the plane tiling with regular hexagons.
A gang of three jewel thieves has stolen some gold coins and wants to divide them fairly. However, they each have one unusual rule: (i) The first thief wants the number of coins to be divisible by \(3\) so they can split it evenly. (ii) The second thief wants the number of coins to be divisible by \(5\) because she wants to split her share with her four siblings. (iii) The third thief wants the number of coins to be divisible by \(7\) since he wants to split his share amongst seven company stocks.
However, they’re stuck as the number of coins isn’t divisible by any
of these numbers. In fact, the number of coins is \(1\) more than a multiple of \(3\), \(3\)
more than a multiple of \(5\) and \(5\) more than a multiple of \(7\).
What’s the smallest number of coins they could have? (And if you’re
feeling generous, how would you help them out?)
Munira wants to put \(6\) books on her shelf, \(4\) of which are red and \(2\) of which are blue. The four red ones are a small paperback, a small hardback, a large paperback and a large hardback. The two blue ones are both paperback, one small and one large. She doesn’t want the two blue ones next to each other. In how many ways can she do this?
Imagine a cube that’s turquoise on the front, pink on top, yellow on
the right, white on left, dark blue on back and orange on the bottom. If
Arne rotates this \(180^{\circ}\) about
the line through the middles of the turquoise and dark blue sides, then
does it again, he gets back to the original cube. If Arne rotates this
\(90^{\circ}\) about that same line,
then does that three more times, then he also gets back to the original
cube.
Is there a rotation he could do, and then do twice more, to get back to
the original cube?
Can you tile the plane with regular octagons?
Sam the magician shuffles his hand of six cards: joker, ace (\(A\)), ten, jack (\(J\)), queen (\(Q\)) and king (\(K\)). After his shuffle, the relative order
of joker, \(A\) and \(10\) is now \(A\), \(10\), joker. Also, the relative order of
\(J\), \(Q\) and \(K\) is now \(Q\), \(K\)
and \(J\).
For example, he could have \(A\), \(Q\), \(10\), joker, \(K\), \(J\)
- but not \(A\), \(Q\), \(10\), joker, \(J\), \(K\).
How many choices does Sam has for his shuffle?
Draw how to tile the whole plane with figures, composed from squares \(1\times 1\), \(2\times 2\), \(3\times 3\), \(4\times 4\), and \(5\times 5\) where squares of all sizes are used the same amount of times in the design of the figure.
A goat and a cow would take \(45\) days to eat a full cart of hay. It would take a cow and a sheep \(60\) days, but a sheep and a goat would need \(90\) days. How many days would it take for all three animals to eat all the hay?