1. If the midpoint M of side BC of triangle ABC has AK = KL = LM, where K and L are points where the median AM intersects the incircle, then the sides of triangle ABC are in the ratio 5:10:13.
2. Find the minimum value of β, where 43/197 < α/β < 17/77 and α and β are positive integers.
3. If two of the equations px^2 + 2qx + r = 0, qx^2 + 2rx + p = 0, rx^2 + 2px + q = 0 have a common root α, then (a) α is real and negative, and (b) the third
this is a presentation on a a number theory topic concerning primes, it discusses three topics, the sieve of Eratosthenes, the euclids proof that primes is infinite, and solving for tau (n) primes.
this is a presentation on a a number theory topic concerning primes, it discusses three topics, the sieve of Eratosthenes, the euclids proof that primes is infinite, and solving for tau (n) primes.
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1. INMO–2005
February 6, 2005
1. Let M be the midpoint of side BC of a triangle ABC. Let the median AM intersect the
incircle of ABC at K and L, K being nearer to A than L. If AK = KL = LM, prove that
the sides of triangle ABC are in the ratio 5 : 10 : 13 in some order.
2. Let α and β be positive integers such that
43
197
<
α
β
<
17
77
.
Find the minimum possible value of β.
3. Let p, q, r be positive real numbers, not all equal, such that some two of the equations
px2
+ 2qx + r = 0, qx2
+ 2rx + p = 0, rx2
+ 2px + q = 0,
have a common root, say α. Prove that
(a) α is real and negative; and
(b) the remaining third equation has non-real roots.
4. All possible 6-digit numbers, in each of which the digits occur in non-increasing order (from left
to right, e.g.,877550) are written as a sequence in increasing order. Find the 2005-th number
in this sequence.
5. Let x1 be a given positive integer. A sequence(xn)∞
n=1 = (x1, x2, x3, · · ·) of positive integers is
such that xn, for n ≥ 2, is obtained from xn−1 by adding some nonzero digit of xn−1. Prove
that
(a) the sequence has an even number;
(b) the sequence has infinitely many even numbers.
6. Find all functions f : R → R such that
f(x2
+ yf(z)) = xf(x) + zf(y),
for all x, y, z in R. (Here R denotes the set of all real numbers.)
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