Difference between revisions of "2011 AMC 12B Problems/Problem 23"

Revision as of 22:11, 19 January 2020

Problem

A bug travels in the coordinate plane, moving only along the lines that are parallel to the $x$ -axis or $y$ -axis. Let $A = (-3, 2)$ and $B = (3, -2)$ . Consider all possible paths of the bug from $A$ to $B$ of length at most $20$ . How many points with integer coordinates lie on at least one of these paths?

$\textbf{(A)}\ 161 \qquad \textbf{(B)}\ 185 \qquad \textbf{(C)}\ 195 \qquad \textbf{(D)}\ 227 \qquad \textbf{(E)}\ 255$

Solution

We declare a point $(x, y)$ to make up for the extra steps that the bug has to move. If the point $(x, y)$ satisfies the property that $|x - 3| + |y + 2| + |x + 3| + |y - 2| \le 20$ , then it is in the desirable range because $|x - 3| + |y + 2|$ is the length of the shortest path from $(x,y)$ to $(3, -2)$ and $|x + 3| + |y - 2|$ is the length of the shortest path from $(x,y)$ to $(-3, 2)$

If $-3\le x \le 3$ , then $-7\le y \le 7$ satisfy the property. there are $15 \times 7 = 105$ lattice points here.

else let $3< x \le 8$ (and for $-8 \le x < -3$ because it is symmetrical) We set 8 as the upper bound for x because the shortest distance from $(-3, 2)$ to $(x, y)$ added to the shortest distance from $(x, y)$ to $(3, -2)$ is $|x - 3| + |y + 2| + |x + 3| + |y - 2|$ . Since the minimum value for the difference between the y-coordinates is at $y = 0$ , we get $2x + 4 = 16$ or $-2x + 4 = 16$ . Thus, the upper and lower bounds for $x$ are $8$ and $-8$ , respectively.

Now we test each value for x satisfying $3< x \le 8$ and double the result because of symmetry.

For $x = 4$ , there are $13$ lattice points,

for $x = 5$ , there are $11$ lattice points,

for $x = 6$ , there are $9$ lattice points,

for $x = 7$ , there are $7$ lattice points,

For $x = 8$ , there are $5$ lattice points.

Hence, there are a total of $105 + 2 ( 13 + 11 + 9 + 7 + 5) = \boxed{(C) 195}$ lattice points.

One may also obtain the result by using Pick's Theorem(how?).

Revision as of 22:10, 19 January 2020 (view source) Labert (talk \| contribs) (→‎Solution) ← Older edit		Revision as of 22:11, 19 January 2020 (view source) Labert (talk \| contribs) (→‎Solution) Newer edit →
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	==Solution==		==Solution==
−	We declare a point <math>(x, y)</math> to make up for the extra steps that the bug has to move. If the point <math>(x, y)</math> satisfies the property that <math>\|x - 3\| + \|y + 2\| + \|x + 3\| + \|y - 2\| \le 20</math>, then it is in the desirable range because <math>\|x - 3\| + \|y + 2\|</math> is the length of the shortest path from <math>(x,y)</math> to <math>(3, -2)</math>, and <math>\|x + 3\| + \|y - 2\|</math> is the length of the shortest path from <math>(x,y)</math> to <math>(-3, 2)</math>	+	We declare a point <math>(x, y)</math> to make up for the extra steps that the bug has to move. If the point <math>(x, y)</math> satisfies the property that <math>\|x - 3\| + \|y + 2\| + \|x + 3\| + \|y - 2\| \le 20</math>, then it is in the desirable range because <math>\|x - 3\| + \|y + 2\|</math> is the length of the shortest path from <math>(x,y)</math> to <math>(3, -2)</math> and <math>\|x + 3\| + \|y - 2\|</math> is the length of the shortest path from <math>(x,y)</math> to <math>(-3, 2)</math>

2011 AMC 12B (Problems • Answer Key • Resources)
Preceded by Problem 22	Followed by Problem 24
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Difference between revisions of "2011 AMC 12B Problems/Problem 23"

Revision as of 22:11, 19 January 2020

Problem

Solution

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