Difference between revisions of "1975 USAMO Problems/Problem 1"

Revision as of 17:33, 30 December 2008

(a) Prove that

$[5x]+[5y]\ge [3x+y]+[3y+x]$ ,

where $x,y\ge 0$ and $[u]$ denotes the greatest integer $\le u$ (e.g., $[\sqrt{2}]=1$ ).

(b) Using (a) or otherwise, prove that

$\frac{(5m)!(5n)!}{m!n!(3m+n)!(3n+m)!}$

is integral for all positive integral $m$ and $n$ .

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 ==Problem==
-(a) Prove that <center><math>[5x]+[5y]\ge [3x+y]+[3y+x]</math>,</center>where <math>x,y\ge 0</math> and <math>[u]</math> denotes the greatest integer <math>\le u</math> (e.g., <math>[\sqrt{2}]=1</math>).
+(a) Prove that
+<center><math>[5x]+[5y]\ge [3x+y]+[3y+x]</math>,</center>
+where <math>x,y\ge 0</math> and <math>[u]</math> denotes the greatest integer <math>\le u</math> (e.g., <math>[\sqrt{2}]=1</math>).
+(b) Using (a) or otherwise, prove that
-(b) Using (a) or otherwise, prove that <center><math>\frac{(5m)!(5n)!}{m!n!(3m+n)!(3n+m)!}</math></center>is integral for all positive integral <math>m</math> and <math>n</math>.
+<center><math>\frac{(5m)!(5n)!}{m!n!(3m+n)!(3n+m)!}</math></center>
+is integral for all positive integral <math>m</math> and <math>n</math>.
 ==Solution==

1975 USAMO (Problems • Resources)
Preceded by First Question	Followed by Problem 2
1 • 2 • 3 • 4 • 5
All USAMO Problems and Solutions