11th Swedish Mathematical Society Problems 1971



1.  Show that (1 + a + a2)2 < 3(1 + a2 + a4) for real a ≠ 1.
2.  An arbitrary number of lines divide the plane into regions. Show that the regions can be colored red and blue so that neighboring regions have different colors.
3.  A table is covered by 15 pieces of paper. Show that we can remove 7 pieces so that the remaining 8 cover at least 8/15 of the table.


4.  Find (655333 + 655343 + 655353 + 655363 + 655373 + 655383+ 655393)/(32765·32766 + 32767·32768 + 32768·32769 + 32770·32771).
5.  Show that max|x|≤t |1 - a cos x| ≥ tan2(t/2) for a positive and t ∈ (0, π/2).

6.  99 cards each have a label chosen from 1, 2, ... , 99, such that no (non-empty) subset of the cards has labels with total divisible by 100. Show that the labels must all be equal. 

Solutions

Problem 1
Show that (1 + a + a2)2 < 3(1 + a2 + a4) for real a ≠ 1.
Solution
We have a2 + a + 1 = (a + 1/2)2 + 3/4 > 0. So for a ≠ 1, we have 0 < (a - 1)2(a2 + a + 1) = (a - 1)(a3 - 1) = a4 - a3 - a + 1. Hence 2(1 + a4) > 2a(1 + a2), so (1 + a + a2)2 = 1 + 2a + 3a2 + 2a3 + a4 < 3(1 + a2 + a4). 

Problem 2
An arbitrary number of lines divide the plane into regions. Show that the regions can be colored red and blue so that neighboring regions have different colors.
Solution
Induction on the number of lines. Obvious for 1 line. Suppose true for n lines. Now add the n+1st line and change the color of every region on one side of the new line. 

Problem 4
Find (655333 + 655343 + 655353 + 655363 + 655373 + 655383+ 655393)/(32765·32766 + 32767·32768 + 32768·32769 + 32770·32771).
Answer
7·216
Solution
Put N = 65536 = 216. Then numerator = (N-3)3 + (N-2)3 + (N-1)3 + N3 + (N+1)3 + (N+2)3 + (N+3)3 = ((N-3)3 + (N+3)3) + ((N-2)3 + (N+2)3) + ((N-1)3 + (N+1)3) + N3 = 2(N3 + 27N) + 2(N3 + 12N) + 2(N3 + 3N) + N3 = 7(N3 + 12N).
Put M = N/2 = 32768. Denominator = (M-3)(M-2) + (M-1)M + M(M+1) + (M+2)(M+3) = 4M2 + 12 = N2 + 12. Hence expr = 7N. 

Problem 6
99 cards each have a label chosen from 1, 2, ... , 99, such that no (non-empty) subset of the cards has labels with total divisible by 100. Show that the labels must all be equal.
Solution
Let the labels be a1, a2, ... , a99. Use cyclic subscripts so a100 means a1, a101 means a2 etc. The 99 sums ai, ai + ai+1, ai + ai+1 + ai+2, ... , ai + ai+1 + ... + ai+98 must all be non-zero mod 100 and all unequal (otherwise their difference would give a subset with zero sum mod 100). So one of them must equal -ai-1 mod 100. If it is any but the last, then ai-1 + ai + ... + ai+k gives a subset with sum 0 mod 100. So it must be the last. In other words ai-1 = -(ai + ai+1 + ... + ai+98). But this is independent of i because ai + ai+1 + ... + ai+98 = a1 + a2 + ... + a99. So ai-1 are all equal mod 100 and hence are all equal.


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