1970 Canadian MO Problems

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Problem 1

Find all number triples $(x,y,z)$ such that when any of these numbers is added to the product of the other two, the result is 2.

Solution

Problem 2

Given a triangle $ABC$ with angle $A$ obtuse and with altitudes of length $h$ and $k$ as shown in the diagram, prove that $a+h\ge b+k$. Find under what conditions $a+h=b+k$.


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Solution

Problem 3

A set of balls is given. Each ball is coloured red or blue, and there is at least one of each colour. Each ball weighs either 1 pound or 2 pounds, and there is at least one of each weight. Prove that there are two balls having different weights and different colours.

Solution

Problem 4

a) Find all positive integers with initial digit 6 such that the integer formed by deleting 6 is $1/25$ of the original integer.

b) Show that there is no integer such that the deletion of the first digit produces a result that is $1/35$ of the original integer.

Solution

Problem 5

A quadrilateral has one vertex on each side of a square of side-length 1. Show that the lengths $a$, $b$, $c$ and $d$ of the sides of the quadrilateral satisfy the inequalities $2\le a^2+b^2+c^2+d^2\le 4.$

Solution

Problem 6

Given three non-collinear points $A,B,C$, construct a circle with centre $C$ such that the tangents from $A$ and $B$ are parallel.

Solution

Problem 7

Show that from any five integers, not necessarily distinct, one can always choose three of these integers whose sum is divisible by 3.

Solution

Problem 8

Consider all line segments of length 4 with one end-point on the line $y=x$ and the other end-point on the line $y=2x$. Find the equation of the locus of the midpoints of these line segments.

Solution

Problem 9

Let $f(n)$ be the sum of the first $n$ terms of the sequence \[0, 1,1, 2,2, 3,3, 4,4, 5,5, 6,6, \ldots\, .\] a) Give a formula for $f(n)$.

b) Prove that $f(s+t)-f(s-t)=st$ where $s$ and $t$ are positive integers and $s>t$.

Solution

Problem 10

Given the polynomial \[f(x)=x^n+a_{1}x^{n-1}+a_{2}x^{n-2}+\cdots+a_{n-1}x+a_n\] with integer coefficients $a_1,a_2,\ldots,a_n$, and given also that there exist four distinct integers $a$, $b$, $c$ and $d$ such that \[f(a)=f(b)=f(c)=f(d)=5,\] show that there is no integer $k$ such that $f(k)=8$.

Solution

See Also