1973 IMO Problems/Problem 2
Problem
Determine whether or not there exists a finite set of points in space not lying in the same plane such that, for any two points and of ; one can select two other points and of so that lines and are parallel and not coincident.
Solution
In order to solve this problem we can start by finding at least one finite set that satisfies the condition.
We start by defining our first set with the vertices of a cube of side as follows:
Since all the faces of this cube have a parallel face, then any two points on one face will have corresponding 2 points on the opposite face that is parallel. However we have four diagonals on this cube that do not have two points that are parallel to any of these diagonals.
By doing a reflection of the points on the plane along the these four diagonals will have their respective parallel diagonals on the space.
But now we have four more diagonals on the set of two cubes that do not have a parallel line. That is, diagonal does not have a parallel line and neither do the other three.
By doing a reflection of the points on the plane along the these new four diagonals will have their respective parallel diagonals on the space.
But now we have four more diagonals on the set of 4 cubes that do not have a parallel line. That is, diagonal does not have a parallel line and neither do the other three.
By doing a reflection of the points on the plane along the these new four diagonals will have their respective parallel diagonals on the space.
The new 4 longer diagonals will cross the diagonal of two of the cubes and will have a parallel line on one of the other cubes.
So, we found a set at least one finite set that we can define as where giving a total of 27 points. Therefore such a set exists.
Another way to define this set of points is let be: Let be a solid cube or parallelepiped Let be the set of all 8 vertices Let be the set of all 12 midpoints of the edges of Let be the set of all 6 midpoints of the faces of Let be the center of =
Alternate solutions are always welcome. If you have a different, elegant solution to this problem, please add it to this page.
See Also
1973 IMO (Problems) • Resources | ||
Preceded by Problem 1 |
1 • 2 • 3 • 4 • 5 • 6 | Followed by Problem 3 |
All IMO Problems and Solutions |