Difference between revisions of "2009 AMC 10B Problems/Problem 10"

Latest revision as of 18:12, 12 July 2023

Problem

A flagpole is originally $5$ meters tall. A hurricane snaps the flagpole at a point $x$ meters above the ground so that the upper part, still attached to the stump, touches the ground $1$ meter away from the base. What is $x$ ?

$\text{(A) } 2.0 \qquad \text{(B) } 2.1 \qquad \text{(C) } 2.2 \qquad \text{(D) } 2.3 \qquad \text{(E) } 2.4$

Solution 1

The broken flagpole forms a right triangle with legs $1$ and $x$ , and hypotenuse $5-x$ . The Pythagorean theorem now states that $1^2 + x^2 = (5-x)^2$ , hence $10x = 24$ , and $x=\boxed{2.4}$ .

(Note that the resulting triangle is the well-known $5-12-13$ right triangle, scaled by $1/5$ .)

Solution 2

A right triangle is formed with the bottom of the flagpole, the snapped part, and the ground. One leg is of length $1$ and the other is length $x$ . By the Pythagorean theorem, we know that $\sqrt{x^2+1^2}$ must be the length of the snapped part of the flagpole. Observe that all the answer choices are rational. If $x$ is rational, $5-x$ , which is the snapped part, must also be rational. Therefore, $1, x, 5-x$ must form a scaled Pythagorean triple. We know that $10, 24, 26$ is a Pythagorean triple, so the corresponding answer must be $1, 2.4, 2.6$ . Adding together the $x$ and the snapped part, this does indeed equal $5$ , so our solution is done.

Solution 3

Let $AB$ represent the flagpole in the diagram above. After the flagpole breaks at point $D$ , its tip lies at point $C$ . Since none of the flagpole is destroyed, we know that $DA=DC$ . Therefore, triangle $\triangle ADC$ is isosceles.

Draw the altitude $DE \perp AC$ . Since $\triangle ADC$ is isosceles, we know that $AE = EC$ . Also note that $\triangle AED \sim \triangle ABC$ . Therefore, $\begin{align*} AD &= AE \times \frac{AD}{AE} \\ &= \frac{AC}{2} \times \frac{AC}{AB} \\ &= \frac{AC^2}{2 AB} \\ &= \frac{AB^2 + BC^2}{2 AB} \end{align*}$

Since $AB = 5$ and $BC = 1$ , we have that $AD = \frac{5^2 + 1^2}{2 \cdot 5} = 2.6$ , and thus $x = AB - AD = \boxed{2.4}$ .

Video Solution

There is currently no video solution on Youtube. A wrong link was posted here.

(I sent a request to BeautyofMath so there may be one on his channel soon)

~ ssr-07

@@ Line 15: / Line 15: @@
 </math>
-== Solution ==
+== Solution 1 ==
 The broken flagpole forms a right triangle with legs <math>1</math> and <math>x</math>, and hypotenuse <math>5-x</math>. The [[Pythagorean theorem]] now states that <math>1^2 + x^2 = (5-x)^2</math>, hence <math>10x = 24</math>, and <math>x=\boxed{2.4}</math>.
 (Note that the resulting triangle is the well-known <math>5-12-13</math> right triangle, scaled by <math>1/5</math>.)
+== Solution 2 ==
+A right triangle is formed with the bottom of the flagpole, the snapped part, and the ground. One leg is of length <math>1</math> and the other is length <math>x</math>. By the [[Pythagorean theorem]], we know that <math>\sqrt{x^2+1^2}</math> must be the length of the snapped part of the flagpole. Observe that all the answer choices are rational. If <math>x</math> is rational, <math>5-x</math>, which is the snapped part, must also be rational. Therefore, <math>1, x, 5-x</math> must form a scaled Pythagorean triple. We know that <math>10, 24, 26</math> is a Pythagorean triple, so the corresponding answer must be <math>1, 2.4, 2.6</math>. Adding together the <math>x</math> and the snapped part, this does indeed equal <math>5</math>, so our solution is done.
+== Solution 3 ==
+Let <math>AB</math> represent the flagpole in the diagram above. After the flagpole breaks at point <math>D</math>, its tip lies at point <math>C</math>. Since none of the flagpole is destroyed, we know that <math>DA=DC</math>. Therefore, triangle <math>\triangle ADC</math> is isosceles.
+Draw the altitude <math>DE \perp AC</math>. Since <math>\triangle ADC</math> is isosceles, we know that <math>AE = EC</math>. Also note that <math>\triangle AED \sim \triangle ABC</math>. Therefore,
+<cmath>\begin{align*}
+AD &= AE \times \frac{AD}{AE} \\
+&= \frac{AC}{2} \times \frac{AC}{AB} \\
+&= \frac{AC^2}{2 AB} \\
+&= \frac{AB^2 + BC^2}{2 AB}
+\end{align*}</cmath>
+Since <math>AB = 5</math> and <math>BC = 1</math>, we have that <math>AD = \frac{5^2 + 1^2}{2 \cdot 5} = 2.6</math>, and thus <math>x = AB - AD = \boxed{2.4}</math>.
+==Video Solution==
+There is currently no video solution on Youtube. A wrong link was posted here.
+(I sent a request to BeautyofMath so there may be one on his channel soon)
+~ ssr-07
 == See Also ==
 {{AMC10 box|year=2009|ab=B|num-b=9|num-a=11}}
+{{MAA Notice}}

2009 AMC 10B (Problems • Answer Key • Resources)
Preceded by Problem 9	Followed by Problem 11
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

Page

Toolbox

Search