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| Pizza Cutter (Posted on 2005-02-04) |
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You have a special eight-bladed pizza cutter. All you do is pick a point on the pizza, and the device cuts out eight straight lines from that point to the circumference of the pizza, separated by equal 45 degree angles.
You and your friend just bought a pizza and would like to have four slices of pizza each. Your friend tells you that you can make the cut using your device, using any center point you would like. After the cuts have been made, the two of you will eat alternate slices (so that nobody eats two adjacent slices).
How much of the pizza can you end up with?
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Submitted by David Shin
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Rating: 3.6667 (3 votes)
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Solution:
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(Hide)
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You will always end up with half the pizza.
Let the four slices you eat be colored black, and the other four slices colored white.
Lemma. Suppose two chords AC and BD in a circle of radius R intersect at P making four right angles and giving rise to the four line segments PA, PB, PC, PD with lengths a, b, c, d, respectively. Then a^2+b^2+c^2+d^2=4R^2.
Proof. Let D' be the point diametrically opposite D, so that BDD' is a right triangle. The Pythagorean Theorem then yields (2R)^2=(c-a)^2+(b+d)^2. A similar construction in the other direction tells us that (2R)^2=(a+c)^2+(b-d)^2. Expanding and combining yields the result.
Now return to the main problem. We assume in all that follows that the circle's radius is 1. Choose polar coordinates with the origin at P and the polar axis lying along one of the cuts; let the first slice counterclockwise from the polar axis be black.
Let r(t) denote the distance from P to the circle at angle t with the polar axis. The area of the black region is then
(1/2)(INT(r^2(t),t,0,pi/4)+INT(r^2(t),t,pi/2,3pi/4)
+INT(r^2(t),t,pi,5pi/4)+INT(r^2(t),t,3pi/2,7pi/4)).
Combining into one integral, and making variable substitutions, we have
(1/2)INT(r^2(t)+r^2(t+pi/2)+r^2(t+pi)+r^2(t+3pi/2),t,0,pi/4),
which, by the lemma, is simply
(1/2)INT(4,t,0,pi/4) = pi/2,
as required.
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In the comments, Richard also presents a solution where he expresses the area of the black slices as a function of the position and orientation of the cutter, and shows that this function has zero derivative with respect to the orientation. Since an orientation where the cutter cuts through the center of the pizza yields half of the pizza, we can conclude that the function is a constant one. |
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