Difference between revisions of "1964 IMO Problems/Problem 6"
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Since <math>|AA_{2}|=|BB_{2}|=|CC_{2}|</math> and <math>AA_{1} \parallel BB_{1} \parallel CC_{1} \parallel DD_{0}</math>, then <math>\Delta A_{1}B_{1}C_{1}\parallel \Delta ABC</math> | Since <math>|AA_{2}|=|BB_{2}|=|CC_{2}|</math> and <math>AA_{1} \parallel BB_{1} \parallel CC_{1} \parallel DD_{0}</math>, then <math>\Delta A_{1}B_{1}C_{1}\parallel \Delta ABC</math> | ||
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+ | Let <math>h</math> be the perpendicular distance from <math>D</math> to <math>\Delta ABC</math> | ||
{{alternate solutions}} | {{alternate solutions}} |
Revision as of 22:56, 16 November 2023
Problem
In tetrahedron , vertex is connected with , the centroid of . Lines parallel to are drawn through and . These lines intersect the planes and in points and , respectively. Prove that the volume of is one third the volume of . Is the result true if point is selected anywhere within ?
Solution
Let be the point where line intersects line
Let be the point where line intersects line
Let be the point where line intersects line
From centroid properties we have:
Therefore,
Since , then
Since , then
Since , then
Since and , then
Let be the perpendicular distance from to
Alternate solutions are always welcome. If you have a different, elegant solution to this problem, please add it to this page.
See Also
1964 IMO (Problems) • Resources | ||
Preceded by Problem 5 |
1 • 2 • 3 • 4 • 5 • 6 | Followed by Last Question |
All IMO Problems and Solutions |