Difference between revisions of "2016 AIME I Problems/Problem 1"

Revision as of 17:51, 4 March 2016

Problem 1

For $-1<r<1$ , let $S(r)$ denote the sum of the geometric series $12+12r+12r^2+12r^3+\cdots .$ Let $a$ between $-1$ and $1$ satisfy $S(a)S(-a)=2016$ . Find $S(a)+S(-a)$ .

Solution

We know that $S(r)=\frac{12}{1-r}$ , and $S(-r)=\frac{12}{1+r}$ . Therefore, $S(a)S(-a)=\frac{144}{1-a^2}$ , so $2016=\frac{144}{1-a^2}$ . We can divide out $144$ to get $\frac{1}{1-a^2}=14$ . We see $S(a)+S(-a)=\frac{12}{1-a}+\frac{12}{1+a}=\frac{12(1+a)}{1-a^2}+\frac{12(1-a)}{1-a^2}=\frac{24}{1-a^2}=24*14=\fbox{336}$

@@ Line 2: / Line 2: @@
 For <math>-1<r<1</math>, let <math>S(r)</math> denote the sum of the geometric series <cmath>12+12r+12r^2+12r^3+\cdots .</cmath>  Let <math>a</math> between <math>-1</math> and <math>1</math> satisfy <math>S(a)S(-a)=2016</math>. Find <math>S(a)+S(-a)</math>.
 ==Solution==
-<math>S(r)=12/(1-r)</math>
+We know that <math>S(r)=\frac{12}{1-r}</math>, and <math>S(-r)=\frac{12}{1+r}</math>. Therefore, <math>S(a)S(-a)=\frac{144}{1-a^2}</math>, so <math>2016=\frac{144}{1-a^2}</math>. We can divide out <math>144</math> to get <math>\frac{1}{1-a^2}=14</math>. We see <math>S(a)+S(-a)=\frac{12}{1-a}+\frac{12}{1+a}=\frac{12(1+a)}{1-a^2}+\frac{12(1-a)}{1-a^2}=\frac{24}{1-a^2}=24*14=\fbox{336}</math>
-<math>S(-r)=12/(1+r)</math>
-Therefore,
-<math>S(a)S(-a)=144/(1-a^2)</math>
-<math>2016=144/(1-a^2)</math>
-<math>1/(1-a^2)=14</math>
-<math>S(a)+S(-a)=12/(1-a)+12/(1+a)</math>
-<math>=12(1+a)/(1-a^2)+12(1-a)/(1-a^2)=24/(1-a^2)=24*1/(1-a^2)=24*14=336</math>
 == See also ==
 {{AIME box|year=2016|n=I|num-b=0|num-a=2}}
 {{MAA Notice}}

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Difference between revisions of "2016 AIME I Problems/Problem 1"

Revision as of 17:51, 4 March 2016

Problem 1

Solution

See also