Difference between revisions of "1985 AHSME Problems/Problem 28"

Revision as of 21:48, 14 February 2014

Problem

In $\triangle ABC$ , we have $\angle C=3\angle A, a=27,$ and $c=48$ . What is $b$ ?

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$\mathrm{(A)\ } 33 \qquad \mathrm{(B) \ }35 \qquad \mathrm{(C) \ } 37 \qquad \mathrm{(D) \ } 39 \qquad \mathrm{(E) \ }\text{not uniquely determined}$

Solution 1

From the Law of Sines, we have $\frac{\sin(A)}{a}=\frac{\sin(C)}{c}$ , or $\frac{\sin(A)}{27}=\frac{\sin(3A)}{48}\implies 9\sin(3A)=16\sin(A)$ .

We now need to find an identity relating $\sin(3A)$ and $\sin(A)$ . We have

$\sin(3A)=\sin(2A+A)=\sin(2A)\cos(A)+\cos(2A)\sin(A)$

$=2\sin(A)\cos^2(A)+\sin(A)\cos^2(A)-\sin^3(A)=3\sin(A)\cos^2(A)-\sin^3(A)$

$=3\sin(A)(1-\sin^2(A))-\sin^3(A)=3\sin(A)-4\sin^3(A)$ .

Thus we have $9(3\sin(A)-4\sin^3(A))=27\sin(A)-36\sin^3(A)=16\sin(A)$

$\implies 36\sin^3(A)=11\sin(A)$ .

Therefore, $\sin(A)=0, \frac{\sqrt{11}}{6},$ or $-\frac{\sqrt{11}}{6}$ . Notice that we must have $0^\circ<A<45^\circ$ because otherwise $A+3A>180^\circ$ . We can therefore disregard $\sin(A)=0$ because then $A=0$ and also we can disregard $\sin(A)=-\frac{\sqrt{11}}{6}}$ (Error compiling LaTeX. Unknown error_msg) because then $A$ would be in the third or fourth quadrants, much greater than the desired range.

Therefore, $\sin(A)=\frac{\sqrt{11}}{6}$ , and $\cos(A)=\sqrt{1-\left(\frac{\sqrt{11}}{6}\right)^2}=\frac{5}{6}$ . Going back to the Law of Sines, we have $\frac{\sin(A)}{27}=\frac{\sin(B)}{b}=\frac{\sin(\pi-3A-A)}{b}=\frac{\sin(4A)}{b}$ .

We now need to find $\sin(4A)$ .

$\sin(4A)=\sin(2\cdot2A)=2\sin(2A)\cos(2A)$

$=2(2\sin(A)\cos(A))(\cos^2(A)-\sin^2(A))$

$=2\cdot2\cdot\frac{\sqrt{11}}{6}\cdot\frac{5}{6}\left(\left(\frac{5}{6}\right)^2-\left(\frac{\sqrt{11}}{6}\right)^2\right)=\frac{35\sqrt{11}}{162}$ .

Therefore, $\frac{\frac{\sqrt{11}}{6}}{27}=\frac{\frac{35\sqrt{11}}{162}}{b}\implies b=\frac{6\cdot27\cdot35}{162}=35, \boxed{\text{B}}$ .

Solution 2

Let angle A be equal to $x$ degrees. Then angle C is equal to $3x$ degrees, and angle B is equal to $180-4x$ degrees. Let D be a point on side AB such that angle CDA is equal to $x$ degrees, and angle CDB is equal to $2x$ degrees. We can now see that triangles CDB and CDA are both isosceles. From isosceles triangle CDB, we now know that BD = 27, and since AB = $c$ = 48, we know that AD = 21. From isosceles triangle CDA, we now know that CD = 21. Applying Stewart's Theorem on triangle ABC gives us AC = 35, which is $\boxed{\text{B}}$ .

@@ Line 15: / Line 15: @@
 <math> \mathrm{(A)\ } 33 \qquad \mathrm{(B) \ }35 \qquad \mathrm{(C) \  } 37 \qquad \mathrm{(D) \  } 39 \qquad \mathrm{(E) \  }\text{not uniquely determined} </math>
-==Solution==
+==Solution 1==
 From the Law of Sines, we have <math> \frac{\sin(A)}{a}=\frac{\sin(C)}{c} </math>, or <math> \frac{\sin(A)}{27}=\frac{\sin(3A)}{48}\implies 9\sin(3A)=16\sin(A) </math>.
@@ Line 50: / Line 50: @@
 Therefore, <math> \frac{\frac{\sqrt{11}}{6}}{27}=\frac{\frac{35\sqrt{11}}{162}}{b}\implies b=\frac{6\cdot27\cdot35}{162}=35, \boxed{\text{B}} </math>.
+== Solution 2 ==
+Let angle A be equal to <math>x</math> degrees. Then angle C is equal to <math>3x</math> degrees, and angle B is equal to <math>180-4x</math> degrees. Let D be a point on side AB such that angle CDA is equal to <math>x</math> degrees, and angle CDB is equal to <math>2x</math> degrees. We can now see that triangles CDB and CDA are both isosceles. From isosceles triangle CDB, we now know that BD = 27, and since AB = <math>c</math> = 48, we know that AD = 21. From isosceles triangle CDA, we now know that CD = 21. Applying Stewart's Theorem on triangle ABC gives us AC = 35, which is <math>\boxed{\text{B}}</math>.
 ==See Also==
 {{AHSME box|year=1985|num-b=27|num-a=29}}
 {{MAA Notice}}

1985 AHSME (Problems • Answer Key • Resources)
Preceded by Problem 27	Followed by Problem 29
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Difference between revisions of "1985 AHSME Problems/Problem 28"

Revision as of 21:48, 14 February 2014

Contents

Problem

Solution 1

Solution 2

See Also