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| ==Solution 1== | | ==Solution 1== |
− | The shaded region is a right trapezoid. Assume WLOG that <math>YZ=8</math>. Then because the area of <math>\triangle XYZ</math> is equal to 8, the height of the triangle <math>XC=2</math>. Because the line <math>AB</math> is a midsegment, the top base of the trapezoid is <math>\frac12 AB = \frac14 YZ = 2</math>. Also, <math>AB</math> divides <math>XC</math> in two, so the height of the trapezoid is <math>\frac12 (2) = 1</math>. The bottom base is <math>\frac12 YZ = 4</math>. The area of the shaded region is <math>\frac12 (2+4)(1) = \boxed{\text{(D)}\ 3}</math>.
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− | ==Solution 2==
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− | Since <math>A</math> and <math>B</math> are the midpoints of <math>XY</math> and <math>XZ</math>, respectively, <math>AY=AX=BX=BZ</math>.
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− | Draw segments <math>AC</math> and <math>BC</math>.
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− | Drawing an altitude in an isoceles triangle splits the triangle into 2 congruent triangles and we also know that <math>YC=CZ</math>.
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− | <math>AB</math> is the line that connects the midpoints of two sides of a triangle together, which means that <math>AB</math> is parallel to and half in length of <math>YZ</math>. Then <math>AB=YC=CZ</math>.
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− | Since <math>AB</math> is parallel to <math>YZ</math>, and <math>XY</math> is the transversal, <math>\angle XAB=\angle AYC.</math> Similarly, <math>\angle XBA=\angle BZC.</math> Then, by SAS, <math>\triangle XAB=\triangle AYC=\triangle BZC</math>.
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− | Since corresponding parts of congruent triangles are congruent,<math>AC=BC=XA</math>.
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− | Since ACY and BCZ are now isosceles triangles, <math>\angle AYC=\angle ACY</math> and <math>\angle BZC=\angle BCZ</math>
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− | Using the fact that <math>AB</math> is parallel to <math>YZ</math>, <math>\angle ACY=\angle CAB</math> and <math>\angle BCZ=\angle CBA</math>.
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− | Now <math>\triangle XAB=\triangle AYC=\triangle BZC=\triangle ABC</math>.
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− | Draw an altitude through each of them such that each triangle is split into two congruent right triangles. Now there are a total of 8 congruent small triangles, each with area 1. The shaded area has three of these triangles, so it has area 3.
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− | Basically the proof is to show <math>\triangle XAB=\triangle AYC=\triangle BZC=\triangle ABC</math>. If you just look at the diagram you can easily see that the triangles are congruent and you would solve this a lot faster. Anyways, since those triangles are congruent, you can split each in half to find eight congruent triangles with area 1, and since the shaded region has three of these triangles, its area is <math>\boxed{\text{(D)}\ 3}</math>.
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− | ==Solution 3==
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| We know the area of triangle <math>XYZ</math> is <math>8</math> square inches. The area of a triangle can also be represented as <math>\frac{bh}{2}</math> or in this problem <math>\frac{XC\cdot YZ}{2}</math>. By solving, we have <cmath>\frac{XC\cdot YZ}{2} = 8,</cmath> <cmath>XC\cdot YZ = 16.</cmath> | | We know the area of triangle <math>XYZ</math> is <math>8</math> square inches. The area of a triangle can also be represented as <math>\frac{bh}{2}</math> or in this problem <math>\frac{XC\cdot YZ}{2}</math>. By solving, we have <cmath>\frac{XC\cdot YZ}{2} = 8,</cmath> <cmath>XC\cdot YZ = 16.</cmath> |
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| - sarah07 | | - sarah07 |
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− | ==Solution 4 (Dummed down)== | + | ==Video Solution== |
− | The area of triangle <math>XYZ</math> is <math>8</math> square inches. You can turn the triangle into a rectangle by drawing a triangle on the left side with the hypotenuse of it being <math>YAX</math> and another triangle on the right side, with its hypotenuse being <math>XBZ</math>. After drawing the square, you can cut it into <math>8</math> squares. The area of the rectangle is <math>16</math> square inches because the triangle on the left is half of <math>XYCZ</math> and there's another triangle on the other side, equaling them to <math>8</math> square inches. We will be focusing on the left side of the rectangle of <math>XC</math> because it includes the shaded region. It's split into <math>4</math> equal squares. The area of this triangle is <math>8</math> square inches because the total area of the rectangle is <math>16</math> square inches and <math>16</math> divided by <math>2</math> is <math>8</math>. There are <math>4</math> sections, so you would do <math>8</math> divided by <math>4</math> in order to find the area of one square. That means that the area of the top right square is <math>2</math> inches and because it's not needed, we will subtract <math>2</math> from <math>8</math> to get rid of it. If you turn around the paper, you notice that the square with half of the shaded region, and the square above it is the shaded region, except flipped and turned. Therefore, the remaining of the area of it which is <math>6</math> should then be divided by <math>2</math> in order to find the shaded region since the shaded region is equal to the other square and half a square.
| + | https://www.youtube.com/watch?v=zwy5U5IQi88 ~David |
− | <math>6</math> divided by <math>2</math> is <math>3</math>, so the answer is <math>3</math>.
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| + | ==Video Solution by WhyMath== |
| + | https://youtu.be/wIVHVxhA7xg |
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| ==See Also== | | ==See Also== |
| {{AMC8 box|year=2002|num-b=19|num-a=21}} | | {{AMC8 box|year=2002|num-b=19|num-a=21}} |
| {{MAA Notice}} | | {{MAA Notice}} |