Difference between revisions of "1977 Canadian MO Problems"

m (Problem 6)
m (Problem 6)
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Let <math>0<u<1</math> and define  
 
Let <math>0<u<1</math> and define  
<cmath>u_1=1+u , u_2=\frac{1}{u_1}+u \ldots u_{n+1)=\frac{1}{u_n}+u , n\ge 1</cmath>
+
<cmath>u_1=1+u\quad ,\quad u_2=\frac{1}{u_1}+u\quad  \ldots\quad  u_{n+1}=\frac{1}{u_n}+u\quad ,\quad n\ge 1</cmath>
 +
Show that <math>u_n>1 </math> for all values of <math>n=1,2,3\ldots</math>.
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[[1977 Canadian MO Problems/Problem 6 | Solution]]
 
[[1977 Canadian MO Problems/Problem 6 | Solution]]
  

Revision as of 00:59, 7 October 2014

The seven problems were all on the same day.

Problem 1

If $\displaystyle f(x)=x^2+x,$ prove that the equation $\displaystyle 4f(a)=f(b)$ has no solutions in positive integers $\displaystyle a$ and $\displaystyle b.$

Solution

Problem 2

Let $\displaystyle O$ be the center of a circle and $\displaystyle A$ be a fixed interior point of the circle different from $\displaystyle O.$ Determine all points $\displaystyle P$ on the circumference of the circle such that the angle $\displaystyle OPA$ is a maximum.

CanadianMO-1977-2.jpg


Solution

Problem 3

$\displaystyle N$ is an integer whose representation in base $\displaystyle b$ is $\displaystyle 777.$ Find the smallest positive integer $\displaystyle b$ for which $\displaystyle N$ is the fourth power of an integer.

Solution

Problem 4

Let \[p(x)=a_nx^n+a_{n-1}x^{n-1}+\cdots +a_1x+a_0\] and \[q(x)=b_mx^m+b_{m-1}x^{m-1}+\cdots +b_1x+b_0\] be two polynomials with integer coefficients. Suppose that all of the coefficients of the product $p(x)\cdot q(x)$ are even, but not all of them are divisible by 4. Show that one of $p(x)$ and $q(x)$ has all even coefficients and the other has at least one odd coefficient.


Solution

Problem 5

Solution

Problem 6

Let $0<u<1$ and define \[u_1=1+u\quad ,\quad u_2=\frac{1}{u_1}+u\quad  \ldots\quad  u_{n+1}=\frac{1}{u_n}+u\quad ,\quad n\ge 1\] Show that $u_n>1$ for all values of $n=1,2,3\ldots$.

Solution

Problem 7

Solution

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