14th Swedish Mathematical Society Problems 1974



1.  Let an = 2n-1 for n > 0. Let bn = ∑r+s≤n aras. Find bn - bn-1, bn - 2bn-1 and bn.
2.  Show that 1 - 1/k ≤ n(k1/n - 1) ≤ k - 1 for all positive integers n and positive reals k.
3.  Let a1 = 1, a2 = 2a1, a3 = 3a2, a4 = 4a3, ... , a9 = 9a8. Find the last two digits of a9.
4.  Find all polynomials p(x) such that p(x2) = p(x)2 for all x. Hence find all polynomials q(x) such that q(x2 - 2x) = q(x-2)2.


5.  Find the smallest positive real t such that x1 + x3 = 2t x2, x2 + x4 = 2t x3, x3 + x5 = 2t x4 has a solution x1, x2, x3, x4, x5 in non-negative reals, not all zero.
6.  For which n can we find positive integers a1, a2, ... , an such that a12 + a22 + ... + an2 is a square? 

Solutions

Problem 2
Show that 1 - 1/k ≤ n(k1/n - 1) ≤ k - 1 for all positive integers n and positive reals k.
Solution
AM/GM applied to k, 1, ... , 1 gives k1/n ≤ (k+n-1)/n, so n(k1/n - 1) ≤ k-1, which is second inequality.
AM/GM applied to k(n+1)/n, k(n+1)/n, ... , k(n+1)/n, 1 (n+1 terms in all) gives k ≤ (n k(n+1)/n + 1)/(n+1), or (n+1)k - 1 ≤ n k(n+1)/n or 1 - 1/k ≤ n k1/n - n, which is the first inequality.
Thanks to Suat Namli

Problem 3
Let a1 = 1, a2 = 2a1, a3 = 3a2, a4 = 4a3, ... , a9 = 9a8. Find the last two digits of a9.
Answer
21
Solution
Working mod 100, we find 91 = 9, 92 = 81, 93 = 29, 94 = 61, 95 = 49, 96 = 41, 97 = 69, 98 = 21, 99 = 89, 910 = 1, 911 = 9, so periodic period 10. Thus we only need to find the last digit of a8. Working mod 10 we find 81 = 8, 82 = 4, 83 = 2, 84 = 6, 85 = 8, 86 = 4, so periodic period 4. Thus we need to find a7 mod 4. We find 71 = 3, 72 = 1, 73 = 3, so periodic period 2. Now a6 is obviously even, so a7 = 1 mod 4. Hence a8 = 8 mod 10. Hence a9 = 21 mod 100. 

Problem 5
Find the smallest positive real t such that x1 + x3 = 2t x2, x2 + x4 = 2t x3, x3 + x5 = 2t x4 has a solution x1, x2, x3, x4, x5 in non-negative reals, not all zero.
Answer
1/√2
Solution
It is easy to check that x1 = x5 = 0, x2 = x4 = 1, x3 = √2, t = 1/√2 works.
Suppose for some t we have a solution xi. Then 0 = 2tx2 + 2tx4 - 4t2x3 = x1 + 2x3 + x5 - 4t2x3. Hence x3 = 0 or 4t2 - 2 = (x1 + x5)/x3 ≥ 0. If x3 = 0, then x2 + x4 = 0, so x2 = x4 = 0. Hence x1 + x3 = 0 and x3 + x5 = 0, so all xi = 0. Contradiction. So we must have 4t2 - 2 ≥ 0 and hence t ≥ 1/√2. 

Problem 6
For which n can we find positive integers a1, a2, ... , an such that a12 + a22 + ... + an2 is a square?
Answer
all positive n
Solution
Take a1 = 3, an+1 = (a12 + a22 + ... + an2 - 1)/2. For put bn = a12 + a22 + ... + an2. We show by induction that bn is an odd square. True for 1. Suppose true for n, then an+1 = (bn - 1)/2, which is even, since odd squares are 1 mod 4. Hence bn+1 = bn + an+12 = (bn2 - 2bn + 1 + 4bn)/4 = ((bn + 1)/2)2, which is an odd square.
Thanks to Suat Namli


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