Difference between revisions of "1961 AHSME Problems/Problem 38"

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Therefore, <math>s^2 \le 8r^2</math>, so the answer is <math>\boxed{\textbf{(A)}}</math>.
 
Therefore, <math>s^2 \le 8r^2</math>, so the answer is <math>\boxed{\textbf{(A)}}</math>.
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Solution using Triangle inequality:
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s = AC ^2 + BC^2 - 2AC*BC = 4r^2 - 2AC*BC <= 4r^2 - (-4r^2) using triangle inequality in triangle AOC and BOC where O is the center
  
 
==See Also==
 
==See Also==

Revision as of 00:45, 19 December 2020

Problem

$\triangle ABC$ is inscribed in a semicircle of radius $r$ so that its base $AB$ coincides with diameter $AB$. Point $C$ does not coincide with either $A$ or $B$. Let $s=AC+BC$. Then, for all permissible positions of $C$:

$\textbf{(A)}\ s^2\le8r^2\qquad \textbf{(B)}\ s^2=8r^2 \qquad \textbf{(C)}\ s^2 \ge 8r^2 \qquad\\ \textbf{(D)}\ s^2\le4r^2 \qquad \textbf{(E)}\ s^2=4r^2$

Solution

[asy] draw((-50,0)--(-30,40)--(50,0)--(-50,0)); draw(Arc((0,0),50,0,180)); draw(rightanglemark((-50,0),(-30,40),(50,0),200)); dot((-50,0)); label("A",(-50,0),SW); dot((-30,40)); label("C",(-30,40),NW); dot((50,0)); label("B",(50,0),SE); [/asy] Since $s=AC+BC$, $s^2 = AC^2 + 2 \cdot AC \cdot BC + BC^2$. Since $\triangle ABC$ is inscribed and $AB$ is the diameter, $\triangle ABC$ is a right triangle, and by the Pythagorean Theorem, $AC^2 + BC^2 = AC^2 = (2r)^2$. Thus, $s^2 = 4r^2 + 2 \cdot AC \cdot BC$.


The area of $\triangle ABC$ is $\frac{AC \cdot BC}{2}$, so $2 \cdot [ABC] = AC \cdot BC$. That means $s^2 = 4r^2 + 4 \cdot [ABC]$. The area of $\triangle ABC$ can also be calculated by using base $AB$ and the altitude from $C$. The maximum possible value of the altitude is $r$, so the maximum area of $\triangle ABC$ is $r^2$.


Therefore, $s^2 \le 8r^2$, so the answer is $\boxed{\textbf{(A)}}$.

Solution using Triangle inequality: s = AC ^2 + BC^2 - 2AC*BC = 4r^2 - 2AC*BC <= 4r^2 - (-4r^2) using triangle inequality in triangle AOC and BOC where O is the center

See Also

1961 AHSC (ProblemsAnswer KeyResources)
Preceded by
Problem 37
Followed by
Problem 39
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All AHSME Problems and Solutions


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