Difference between revisions of "2006 AMC 12A Problems/Problem 6"

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{{duplicate|[[2006 AMC 12A Problems|2006 AMC 12A #6]] and [[2006 AMC 10A Problems/Problem 7|2006 AMC 10A #7]]}}
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== Problem ==
 
== Problem ==
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The <math>8\times18</math> [[rectangle]] <math>ABCD</math> is cut into two congruent hexagons, as shown, in such a way that the two hexagons can be repositioned without overlap to form a square.  What is <math>y</math>?
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<asy>
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unitsize(3mm);
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defaultpen(fontsize(10pt)+linewidth(.8pt));
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dotfactor=4;
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draw((0,4)--(18,4)--(18,-4)--(0,-4)--cycle);
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draw((6,4)--(6,0)--(12,0)--(12,-4));
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label("$A$",(0,4),NW);
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label("$B$",(18,4),NE);
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label("$C$",(18,-4),SE);
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label("$D$",(0,-4),SW);
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label("$y$",(3,4),S);
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label("$y$",(15,-4),N);
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label("$18$",(9,4),N);
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label("$18$",(9,-4),S);
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label("$8$",(0,0),W);
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label("$8$",(18,0),E);
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dot((0,4));
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dot((18,4));
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dot((18,-4));
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dot((0,-4));</asy>
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<math>\mathrm{(A)}\ 6\qquad\mathrm{(B)}\ 7\qquad\mathrm{(C)}\ 8\qquad\mathrm{(D)}\ 9\qquad\mathrm{(E)}\ 10</math>
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== Solution 1 ==
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Since the two [[hexagon]]s are going to be repositioned to form a [[square (geometry) | square]] without overlap, the [[area]] will remain the same. The rectangle's area is <math>18\cdot8=144</math>. This means the square will have four sides of length 12. The only way to do this is shown below.<br>
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<asy>
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size(175);
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pair A,B,C,D,E,F,G,H;
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A=(0,8);
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B=(12,12);
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C=(12,4);
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D=(0,0);
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E=(0,12);
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F=(12,0);
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G=(6,4);
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H=(6,8);
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draw(A--E--B--C--G--H--A--D--F--C);
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label("$A$",A,W); label("$B$",B,NE); label("$C$",(12.6,4)); label("$D$",D,SW);
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label("$12$",E--B,N); label("$12$",D--F,S);
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label("$4$",E--A,W); label("$4$",(12.4,-1.75),E);
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label("$8$",A--D,W); label("$8$",(12.4,4),E);
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label("$y$",A--H,S); label("$y$",G--C,N);
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</asy>
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As you can see from the diagram, the [[line segment]] denoted as <math>y</math> is half the length of the side of the square, which leads to <math> y = \frac{12}{2} = \boxed{\textbf{(A) }6}</math>.
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=== Solution 2  (Shortcut)===
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As solution 1 says, the two hexagons are going to be repositioned to form a square without overlap. Thus we create this square out of the original rectangle.
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<asy>
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size(175);
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pair A,B,C,D,E,F,G,H;
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A=(0,8);
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B=(12,12);
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C=(12,4);
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D=(0,0);
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E=(0,12);
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F=(12,0);
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G=(6,4);
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H=(6,8);
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draw(A--E--B--C--G--H--A--D--F--C);
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label("$y$",A--H,S); label("$y$",G--C,N);
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</asy>
  
{{image}}
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As you can see from the diagram, the length <math>y</math> fits into the previously blank side, so we know that it is equal to <math>y</math>.
  
The <math>8\times 18</math> rectangle <math>ABCD</math> is cut into two congruent hexagons, as shown, in such a way that the two hexagons can be repositioned without overlap to form a square. What is <math>y</math>?
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<asy>
 +
unitsize(3mm);
 +
defaultpen(fontsize(10pt)+linewidth(.8pt));
 +
dotfactor=4;
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draw((0,4)--(18,4)--(18,-4)--(0,-4)--cycle);
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draw((6,4)--(6,0)--(12,0)--(12,-4));
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label("$y$",(9,-2),NW);
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label("$A$",(0,4),NW);
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label("$B$",(18,4),NE);
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label("$C$",(18,-4),SE);
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label("$D$",(0,-4),SW);
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label("$y$",(3,4),S);
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label("$y$",(15,-4),N);
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label("$18$",(9,4),N);
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label("$18$",(9,-4),S);
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label("$8$",(0,0),W);
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label("$8$",(18,0),E);
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dot((0,4));
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dot((18,4));
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dot((18,-4));
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dot((0,-4));</asy>
  
<math> \mathrm{(A) \ } 6\qquad \mathrm{(B) \ } 7\qquad \mathrm{(C) \ } 8\qquad \mathrm{(D) \ } 9\qquad \mathrm{(E) \ }  10</math>
 
  
== Solution ==
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From there we can say <math>3y = 18</math> so <math>y = \frac{18}{3} = \boxed{\textbf{(A) }6}</math>.
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 +
~Ezraft
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== Solution 3 (Cheap) ==
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Because the two hexagons are congruent, we know that the perpendicular line to <math>A</math> is half of <math>BC</math>, or <math>4</math>. Next, we plug the answer choices in to see which one works. Trying <math>A</math>, we get the area of one hexagon is <math>72</math> , as desired, so the answer is <math>\boxed{\textbf{(A) }6}</math> .
 +
 
 +
~coolmath2017
  
 
== See also ==
 
== See also ==
* [[2006 AMC 12A Problems]]
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{{AMC12 box|year=2006|ab=A|num-b=5|num-a=7}}
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{{AMC10 box|year=2006|ab=A|num-b=6|num-a=8}}
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{{MAA Notice}}
 +
 
 +
[[Category:Introductory Geometry Problems]]

Latest revision as of 17:29, 7 May 2024

The following problem is from both the 2006 AMC 12A #6 and 2006 AMC 10A #7, so both problems redirect to this page.

Problem

The $8\times18$ rectangle $ABCD$ is cut into two congruent hexagons, as shown, in such a way that the two hexagons can be repositioned without overlap to form a square. What is $y$?

[asy] unitsize(3mm); defaultpen(fontsize(10pt)+linewidth(.8pt)); dotfactor=4; draw((0,4)--(18,4)--(18,-4)--(0,-4)--cycle); draw((6,4)--(6,0)--(12,0)--(12,-4)); label("$A$",(0,4),NW); label("$B$",(18,4),NE); label("$C$",(18,-4),SE); label("$D$",(0,-4),SW); label("$y$",(3,4),S); label("$y$",(15,-4),N); label("$18$",(9,4),N); label("$18$",(9,-4),S); label("$8$",(0,0),W); label("$8$",(18,0),E); dot((0,4)); dot((18,4)); dot((18,-4)); dot((0,-4));[/asy]

$\mathrm{(A)}\ 6\qquad\mathrm{(B)}\ 7\qquad\mathrm{(C)}\ 8\qquad\mathrm{(D)}\ 9\qquad\mathrm{(E)}\ 10$

Solution 1

Since the two hexagons are going to be repositioned to form a square without overlap, the area will remain the same. The rectangle's area is $18\cdot8=144$. This means the square will have four sides of length 12. The only way to do this is shown below.

[asy] size(175); pair A,B,C,D,E,F,G,H; A=(0,8); B=(12,12); C=(12,4); D=(0,0); E=(0,12); F=(12,0); G=(6,4); H=(6,8); draw(A--E--B--C--G--H--A--D--F--C); label("$A$",A,W); label("$B$",B,NE); label("$C$",(12.6,4)); label("$D$",D,SW); label("$12$",E--B,N); label("$12$",D--F,S);  label("$4$",E--A,W); label("$4$",(12.4,-1.75),E); label("$8$",A--D,W); label("$8$",(12.4,4),E); label("$y$",A--H,S); label("$y$",G--C,N); [/asy]

As you can see from the diagram, the line segment denoted as $y$ is half the length of the side of the square, which leads to $y = \frac{12}{2} = \boxed{\textbf{(A) }6}$.

Solution 2 (Shortcut)

As solution 1 says, the two hexagons are going to be repositioned to form a square without overlap. Thus we create this square out of the original rectangle.


[asy] size(175); pair A,B,C,D,E,F,G,H; A=(0,8); B=(12,12); C=(12,4); D=(0,0); E=(0,12); F=(12,0); G=(6,4); H=(6,8); draw(A--E--B--C--G--H--A--D--F--C); label("$y$",A--H,S); label("$y$",G--C,N); [/asy]

As you can see from the diagram, the length $y$ fits into the previously blank side, so we know that it is equal to $y$.

[asy] unitsize(3mm); defaultpen(fontsize(10pt)+linewidth(.8pt)); dotfactor=4; draw((0,4)--(18,4)--(18,-4)--(0,-4)--cycle); draw((6,4)--(6,0)--(12,0)--(12,-4)); label("$y$",(9,-2),NW); label("$A$",(0,4),NW); label("$B$",(18,4),NE); label("$C$",(18,-4),SE); label("$D$",(0,-4),SW); label("$y$",(3,4),S); label("$y$",(15,-4),N); label("$18$",(9,4),N); label("$18$",(9,-4),S); label("$8$",(0,0),W); label("$8$",(18,0),E); dot((0,4)); dot((18,4)); dot((18,-4)); dot((0,-4));[/asy]


From there we can say $3y = 18$ so $y = \frac{18}{3} = \boxed{\textbf{(A) }6}$.

~Ezraft

Solution 3 (Cheap)

Because the two hexagons are congruent, we know that the perpendicular line to $A$ is half of $BC$, or $4$. Next, we plug the answer choices in to see which one works. Trying $A$, we get the area of one hexagon is $72$ , as desired, so the answer is $\boxed{\textbf{(A) }6}$ .

~coolmath2017

See also

2006 AMC 12A (ProblemsAnswer KeyResources)
Preceded by
Problem 5
Followed by
Problem 7
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
All AMC 12 Problems and Solutions
2006 AMC 10A (ProblemsAnswer KeyResources)
Preceded by
Problem 6
Followed by
Problem 8
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
All AMC 10 Problems and Solutions

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