Difference between revisions of "1981 AHSME Problems/Problem 27"

Revision as of 12:21, 28 June 2025

Problem

In the adjoining figure triangle $ABC$ is inscribed in a circle. Point $D$ lies on $\stackrel{\frown}{AC}$ with $\stackrel{\frown}{DC} = 30^\circ$ , and point $G$ lies on $\stackrel{\frown}{BA}$ with $\stackrel{\frown}{BG}\, > \, \stackrel{\frown}{GA}$ . Side $AB$ and side $AC$ each have length equal to the length of chord $DG$ , and $\angle CAB = 30^\circ$ . Chord $DG$ intersects sides $AC$ and $AB$ at $E$ and $F$ , respectively. The ratio of the area of $\triangle AFE$ to the area of $\triangle ABC$ is

$[asy] defaultpen(linewidth(.8pt)); pair C = origin; pair A = 2.5*dir(75); pair B = A + 2.5*dir(-75); path circ =circumcircle(A,B,C); pair D = waypoint(circ,(7/12)); pair G = waypoint(circ,(1/6)); pair E = intersectionpoint(D--G,A--C); pair F = intersectionpoint(A--B,D--G); label("$A$",A,N); label("$B$",B,SE); label("$C$",C,SW); label("$D$",D,SW); label("$G$",G,NE); label("$E$",E,NW); label("$F$",F,W); label("$30^\circ$",A,12S+E,fontsize(6pt)); draw(A--B--C--cycle); draw(circ); draw(Arc(A,0.25,-75,-105)); draw(D--G); [/asy]$

$\textbf{(A)}\ \dfrac {2 - \sqrt {3}}{3}\qquad \textbf{(B)}\ \dfrac {2\sqrt {3} - 3}{3}\qquad \textbf{(C)}\ 7\sqrt {3}-12\qquad \textbf{(D)}\ 3\sqrt {3}-5\qquad\\ \textbf{(E)}\ \dfrac {9-5\sqrt {3}}{3}$

Solution

Since $\triangle ABC$ is isosceles, $\angle ACB = \angle ABC = \frac{150^{\circ}}{2} = 75^{\circ}$ , and $\stackrel{\frown}{AC}\ =\ \stackrel{\frown}{AB}\ = 2 \cdot 75^{\circ} = 150^{\circ}$ . Thus $\stackrel{\frown}{AD}\ = 150^{\circ} - 30^{\circ} = 120^{\circ}$ , and $\angle AGD = \angle ACD = \frac{120^{\circ}}{2} = 60^{\circ}$ . Since $DG = AB = AC$ , $\stackrel{\frown}{DG}\ = 150^{\circ}$ . So $\stackrel{\frown}{AG}\ = 150^{\circ} - 120^{\circ} = 30^{\circ}$ . Therefore, $\angle AEG = \frac{30^{\circ} + 30^{\circ}}{2} = 30^{\circ}$

@@ Line 10: / Line 10: @@
 == Solution ==
-Since <math>\triangle ABC</math> is isosceles, <math>\angle ACB = \angle ABC = \frac{150^{\circ}}{2} = 75^{\circ}</math>, and <math>\stackrel{\frown}{AC}\ =\ \stackrel{\frown}{AB}\ = 2 \cdot 75^{\circ} = 150^{\circ}</math>.  Thus <math>\stackrel{\frown}{AD}\ = 150^{\circ} - 30^{\circ} = 120^{\circ}</math>, and <math>\angle AGD = \angle ACD = \frac{120^{\circ}}{2} = 60^{\circ}.  Since </math>DG = AB = AC<math>, </math>\stackrel{\frown}{DG}\ = 150^{\circ}<math>.  So </math>\stackrel{\frown}{AG}\ = 150^{\circ} - 120^{\circ} = 30^{\circ}<math>.  Therefore, </math>\angle AEG = \frac{30^{\circ} + 30^{\circ}}{2} = 30^{\circ}$
+Since <math>\triangle ABC</math> is isosceles, <math>\angle ACB = \angle ABC = \frac{150^{\circ}}{2} = 75^{\circ}</math>, and <math>\stackrel{\frown}{AC}\ =\ \stackrel{\frown}{AB}\ = 2 \cdot 75^{\circ} = 150^{\circ}</math>.  Thus <math>\stackrel{\frown}{AD}\ = 150^{\circ} - 30^{\circ} = 120^{\circ}</math>, and <math>\angle AGD = \angle ACD = \frac{120^{\circ}}{2} = 60^{\circ}</math>.  Since <math>DG = AB = AC</math>, <math>\stackrel{\frown}{DG}\ = 150^{\circ}</math>.  So <math>\stackrel{\frown}{AG}\ = 150^{\circ} - 120^{\circ} = 30^{\circ}</math>.  Therefore, <math>\angle AEG = \frac{30^{\circ} + 30^{\circ}}{2} = 30^{\circ}</math>
 == See Also ==
 {{AHSME box|year=1981|num-b=26|num-a=28}}

1981 AHSME (Problems • Answer Key • Resources)
Preceded by Problem 26	Followed by Problem 28
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Difference between revisions of "1981 AHSME Problems/Problem 27"

Revision as of 12:21, 28 June 2025

Problem

Solution

See Also