Difference between revisions of "2021 Fall AMC 12A Problems/Problem 19"

Revision as of 02:07, 26 November 2021

Problem

Let $x$ be the least real number greater than $1$ such that $\sin(x)= \sin(x^2)$ , where the arguments are in degrees. What is $x$ rounded up to the closest integer?

$\textbf{(A) } 10 \qquad \textbf{(B) } 13 \qquad \textbf{(C) } 14 \qquad \textbf{(D) } 19 \qquad \textbf{(E) } 20$

Solution 1

The smallest $x$ to make $\sin(x) = \sin(x^2)$ would require $x=x^2$ , but since $x$ needs to be greater than $1$ , these solutions are not valid.

The next smallest $x$ would require $x=180-x^2$ , or $x^2+x=180$ .

After a bit of guessing and checking, we find that $12^2+12=156$ , and $13^2+13=182$ , so the solution lies between $12{ }$ and $13$ , making our answer $\boxed{\textbf{(B) } 13}.$

Note: One can also solve the quadratic and estimate the radical.

~kingofpineapplz

Solution 2

For choice $\textbf{(A)},$ we have $\begin{align*} \left| \sin x - \sin \left( x^2 \right) \right| & = \left| \sin 10^\circ - \sin \left( \left( 10^2 \right)^\circ \right) \right| \\ & = \left| \sin 10^\circ - \sin 100^\circ \right| \\ & = \left| \sin 10^\circ - \sin 80^\circ \right| \\ & = \sin 80^\circ - \sin 10^\circ . \end{align*}$ For choice $\textbf{(B)},$ we have $\begin{align*} \left| \sin x - \sin \left( x^2 \right) \right| & = \left| \sin 13^\circ - \sin \left( \left( 13^2 \right)^\circ \right) \right| \\ & = \left| \sin 13^\circ - \sin 169^\circ \right| \\ & = \left| \sin 10^\circ - \sin 11^\circ \right| \\ & = \sin 11^\circ - \sin 10^\circ . \end{align*}$ For choice $\textbf{(C)},$ we have $\begin{align*} \left| \sin x - \sin \left( x^2 \right) \right| & = \left| \sin 14^\circ - \sin \left( \left( 14^2 \right)^\circ \right) \right| \\ & = \left| \sin 14^\circ - \sin 196^\circ \right| \\ & = \left| \sin 14^\circ + \sin 16^\circ \right| \\ & = \sin 14^\circ + \sin 16^\circ . \end{align*}$ For choice $\textbf{(D)},$ we have $\begin{align*} \left| \sin x - \sin \left( x^2 \right) \right| & = \left| \sin 19^\circ - \sin \left( \left( 19^2 \right)^\circ \right) \right| \\ & = \left| \sin 19^\circ - \sin 361^\circ \right| \\ & = \left| \sin 19^\circ - \sin 1^\circ \right| \\ & = \sin 19^\circ - \sin 1^\circ . \end{align*}$ For choice $\textbf{(E)},$ we have $\begin{align*} \left| \sin x - \sin \left( x^2 \right) \right| & = \left| \sin 20^\circ - \sin \left( \left( 20^2 \right)^\circ \right) \right| \\ & = \left| \sin 20^\circ - \sin 400^\circ \right| \\ & = \left| \sin 20^\circ - \sin 40^\circ \right| \\ & = \sin 40^\circ - \sin 20^\circ . \end{align*}$ Therefore, the answer is $\boxed{\textbf{(B) }13},$ as $\sin 11^\circ - \sin 10^\circ$ is closest to $0.$

~Steven Chen (www.professorchenedu.com)

@@ Line 16: / Line 16: @@
 == Solution 2 ==
-For choice A, we have
+For choice <math>\textbf{(A)},</math> we have
 <cmath>
 \begin{align*}
-\left| \sin x = \sin \left( x^2 \right) \right|
+\left| \sin x - \sin \left( x^2 \right) \right|
-& = \left| \sin 10^\circ = \sin \left( \left( 10^2 \right)^\circ \right) \right| \\
+& = \left| \sin 10^\circ - \sin \left( \left( 10^2 \right)^\circ \right) \right| \\
 & = \left| \sin 10^\circ - \sin 100^\circ \right| \\
 & = \left| \sin 10^\circ - \sin 80^\circ \right| \\
@@ Line 26: / Line 26: @@
 \end{align*}
 </cmath>
+For choice <math>\textbf{(B)},</math> we have
-For choice B, we have
 <cmath>
 \begin{align*}
-\left| \sin x = \sin \left( x^2 \right) \right|
+\left| \sin x - \sin \left( x^2 \right) \right|
-& = \left| \sin 13^\circ = \sin \left( \left( 13^2 \right)^\circ \right) \right| \\
+& = \left| \sin 13^\circ - \sin \left( \left( 13^2 \right)^\circ \right) \right| \\
 & = \left| \sin 13^\circ - \sin 169^\circ \right| \\
 & = \left| \sin 10^\circ - \sin 11^\circ \right| \\
@@ Line 37: / Line 36: @@
 \end{align*}
 </cmath>
+For choice <math>\textbf{(C)},</math> we have
-For choice C, we have
 <cmath>
 \begin{align*}
-\left| \sin x = \sin \left( x^2 \right) \right|
+\left| \sin x - \sin \left( x^2 \right) \right|
-& = \left| \sin 14^\circ = \sin \left( \left( 14^2 \right)^\circ \right) \right| \\
+& = \left| \sin 14^\circ - \sin \left( \left( 14^2 \right)^\circ \right) \right| \\
 & = \left| \sin 14^\circ - \sin 196^\circ \right| \\
 & = \left| \sin 14^\circ + \sin 16^\circ \right| \\
@@ Line 48: / Line 46: @@
 \end{align*}
 </cmath>
+For choice <math>\textbf{(D)},</math> we have
-For choice D, we have
 <cmath>
 \begin{align*}
-\left| \sin x = \sin \left( x^2 \right) \right|
+\left| \sin x - \sin \left( x^2 \right) \right|
-& = \left| \sin 19^\circ = \sin \left( \left( 19^2 \right)^\circ \right) \right| \\
+& = \left| \sin 19^\circ - \sin \left( \left( 19^2 \right)^\circ \right) \right| \\
 & = \left| \sin 19^\circ - \sin 361^\circ \right| \\
 & = \left| \sin 19^\circ - \sin 1^\circ \right| \\
@@ Line 59: / Line 56: @@
 \end{align*}
 </cmath>
+For choice <math>\textbf{(E)},</math> we have
-For choice E, we have
 <cmath>
 \begin{align*}
-\left| \sin x = \sin \left( x^2 \right) \right|
+\left| \sin x - \sin \left( x^2 \right) \right|
-& = \left| \sin 20^\circ = \sin \left( \left( 20^2 \right)^\circ \right) \right| \\
+& = \left| \sin 20^\circ - \sin \left( \left( 20^2 \right)^\circ \right) \right| \\
 & = \left| \sin 20^\circ - \sin 400^\circ \right| \\
 & = \left| \sin 20^\circ - \sin 40^\circ \right| \\
@@ Line 70: / Line 66: @@
 \end{align*}
 </cmath>
+Therefore, the answer is <math>\boxed{\textbf{(B) }13},</math> as <math>\sin 11^\circ - \sin 10^\circ</math> is closest to <math>0.</math>
-Therefore, the answer is <math>\boxed{\textbf{(B) }13}</math>.
 ~Steven Chen (www.professorchenedu.com)

2021 Fall AMC 12A (Problems • Answer Key • Resources)
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Difference between revisions of "2021 Fall AMC 12A Problems/Problem 19"

Revision as of 02:07, 26 November 2021

Contents

Problem

Solution 1

Solution 2

See Also