Difference between revisions of "1979 USAMO Problems/Problem 4"
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==Solution (trig bash) == | ==Solution (trig bash) == | ||
− | + | <asy> | |
pair O = (0,0), A = (14,28), Q = (20,40), B = (16,0), R = (25,0), P = (23,16); | pair O = (0,0), A = (14,28), Q = (20,40), B = (16,0), R = (25,0), P = (23,16); | ||
dot(O); dot(A); dot(Q); dot(B); dot(R); dot(P); | dot(O); dot(A); dot(Q); dot(B); dot(R); dot(P); | ||
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draw(O--R--Q--O); draw(O--P); | draw(O--R--Q--O); draw(O--P); | ||
label("r", O--P, N); | label("r", O--P, N); | ||
− | + | </asy> | |
Let <math>r = OP, x = <OPR, a = <POR,</math> and <math>b = <POQ.</math> Then <math><ORP = \pi - x - a</math> and <math><OQP = x - b.</math> Using the Law of Sines on triangle OPR gives | Let <math>r = OP, x = <OPR, a = <POR,</math> and <math>b = <POQ.</math> Then <math><ORP = \pi - x - a</math> and <math><OQP = x - b.</math> Using the Law of Sines on triangle OPR gives |
Revision as of 20:55, 16 August 2014
Problem
lies between the rays and . Find on and on collinear with so that $\frac{1}{PQ}\plus{} \frac{1}{PR}$ (Error compiling LaTeX. Unknown error_msg) is as large as possible.
Solution (inversions)
Perform the inversion with center and radius Lines go to the circles passing through and the line cuts again at the inverses of Hence
Thus, it suffices to find the line through that maximizes the length of the segment If are the midpoints of i.e. the projections of onto then from the right trapezoid we deduce that Consequently, is the greatest possible length of which obviously occurs when is a rectangle. Hence, are the intersections of with the perpendicular to at
Solution (trig bash)
Let and Then and Using the Law of Sines on triangle OPR gives and using the Law of Sines on triangle OPQ gives Note that and are given constants. Hence,
Clearly, this quantity is maximized when Because must be less than , is as large as possible when or when line is perpendicular to line .
See Also
1979 USAMO (Problems • Resources) | ||
Preceded by Problem 3 |
Followed by Problem 5 | |
1 • 2 • 3 • 4 • 5 | ||
All USAMO Problems and Solutions |
The problems on this page are copyrighted by the Mathematical Association of America's American Mathematics Competitions.