Difference between revisions of "2019 AMC 8 Problems/Problem 4"

Revision as of 11:16, 14 April 2020

Problem 4

Quadrilateral $ABCD$ is a rhombus with perimeter $52$ meters. The length of diagonal $\overline{AC}$ is $24$ meters. What is the area in square meters of rhombus $ABCD$ ?

$[asy] draw((-13,0)--(0,5)); draw((0,5)--(13,0)); draw((13,0)--(0,-5)); draw((0,-5)--(-13,0)); dot((-13,0)); dot((0,5)); dot((13,0)); dot((0,-5)); label("A",(-13,0),W); label("B",(0,5),N); label("C",(13,0),E); label("D",(0,-5),S); [/asy]$

$\textbf{(A) }60\qquad\textbf{(B) }90\qquad\textbf{(C) }105\qquad\textbf{(D) }120\qquad\textbf{(E) }144$

Solution 1

$[asy] draw((-12,0)--(0,5)); draw((0,5)--(12,0)); draw((12,0)--(0,-5)); draw((0,-5)--(-12,0)); draw((0,0)--(12,0)); draw((0,0)--(0,5)); draw((0,0)--(-12,0)); draw((0,0)--(0,-5)); dot((-12,0)); dot((0,5)); dot((12,0)); dot((0,-5)); label("A",(-12,0),W); label("B",(0,5),N); label("C",(12,0),E); label("D",(0,-5),S); label("E",(0,0),SW); [/asy]$

A rhombus has sides of equal length. Because the perimeter of the rhombus is $52$ , each side is $\frac{52}{4}=13$ . In a rhombus, diagonals are perpendicular and bisect each other, which means $\overline{AE}$ = $12$ = $\overline{EC}$ .

Consider one of the right triangles:

$[asy] draw((-12,0)--(0,5)); draw((0,0)--(-12,0)); draw((0,0)--(0,5)); dot((-12,0)); dot((0,5)); label("A",(-12,0),W); label("B",(0,5),N); label("E",(0,0),SE); [/asy]$

$\overline{AB}$ = $13$ , and $\overline{AE}$ = $12$ . Using Pythagorean theorem, we find that $\overline{BE}$ = $5$ .

Thus the values of the two diagonals are $\overline{AC}$ = $24$ and $\overline{BD}$ = $10$ . The area of a rhombus is = $\frac{d_1*d_2}{2}$ = $\frac{24*10}{2}$ = $120$

$\boxed{\textbf{(D)}\ 120}$ ~phoenixfire

Solution 2 (meadsy69)

<easy> draw((-13,0)--(0,5)); draw((0,5)--(13,0)); draw((13,0)--(0,-5)); draw((0,-5)--(-13,0)); draw((13,0)--(-13,0)); dot((-13,0)); dot((0,5)); dot((13,0)); dot((0,-5)); label("A",(-13,0),W); label("B",(0,5),N); label("C",(13,0),E); label("D",(0,-5),S); </asy> Since a rhombus has sides of equal length, $AB=BC=CD=DA=\frac{52}{4}=13$ . In triangle ABC, $AB=BC=13$ and $AC=24$ . Using Heron's formula, we have $[ABCD]=[ABC]+[ACD]=2[ABC]=2\sqrt{25*12*12*1}$ . Simplifying, we have $[ABC]=\sqrt{3600}=60$ so $[ABCD]=2*60=\boxed{\textbf{(D)} 120}$ . ~~RWhite

@@ Line 64: / Line 64: @@
 <math>\boxed{\textbf{(D)}\ 120}</math>              ~phoenixfire
-==Solution 2 (Heron's)==
+==Solution 2 (meadsy69)==
-<asy>
+<easy>
 draw((-13,0)--(0,5));
 draw((0,5)--(13,0));
@@ Line 81: / Line 81: @@
 </asy>
 Since a rhombus has sides of equal length, <math>AB=BC=CD=DA=\frac{52}{4}=13</math>. In triangle ABC, <math>AB=BC=13</math> and <math>AC=24</math>. Using Heron's formula, we have <math>[ABCD]=[ABC]+[ACD]=2[ABC]=2\sqrt{25*12*12*1}</math>. Simplifying, we have <math>[ABC]=\sqrt{3600}=60</math> so <math>[ABCD]=2*60=\boxed{\textbf{(D)} 120}</math>. ~~RWhite
 ==See Also==
 {{AMC8 box|year=2019|num-b=3|num-a=5}}
 {{MAA Notice}}

2019 AMC 8 (Problems • Answer Key • Resources)
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Difference between revisions of "2019 AMC 8 Problems/Problem 4"

Revision as of 11:16, 14 April 2020

Contents

Problem 4

Solution 1

Solution 2 (meadsy69)

See Also