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2017 AMC 10A Problems/Problem 10: Difference between revisions

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Created page with "==Problem== Joy has <math>30</math> thin rods, one each of every integer length from <math>1</math> cm through <math>30</math> cm. She places the rods with lengths <math>3</ma..."
 
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fixed some stuff and added see also
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==Solution==
==Solution==
The triangle inequality generalizes to all polygons, so you can just use <math>x < 3+7+15</math> and <math>x+3+7>15</math> to get <math>5<x<25</math>, so <math>x</math> takes on 19 values. Then, of course, you subtract 2 because 7 and 15 are already used, to get <math>\boxed{17}</math>.
The triangle inequality generalizes to all polygons, so <math>x < 3+7+15</math> and <math>x+3+7>15</math> to get <math>5<x<25</math>. Now, we know that there are <math>17</math> numbers between <math>5</math> and <math>25</math> exclusive, so the answer is <math>\boxed{\text{(B)} 17}</math>
 
==See Also==
{{AMC10 box|year=2017|ab=A|num-b=9|num-a=11}}
{{MAA Notice}}

Revision as of 16:39, 8 February 2017

Problem

Joy has $30$ thin rods, one each of every integer length from $1$ cm through $30$ cm. She places the rods with lengths $3$ cm, $7$ cm, and $15$ cm on a table. She then wants to choose a fourth rod that she can put with these three to form a quadrilateral with positive area. How many of the remaining rods can she choose as the fourth rod?

$\text{(A) 16}\qquad\text{(B) 17}\qquad\text{(C) 18}\qquad\text{(D) 19}\qquad\text{(E) 20}$

Solution

The triangle inequality generalizes to all polygons, so $x < 3+7+15$ and $x+3+7>15$ to get $5<x<25$. Now, we know that there are $17$ numbers between $5$ and $25$ exclusive, so the answer is $\boxed{\text{(B)} 17}$

See Also

2017 AMC 10A (ProblemsAnswer KeyResources)
Preceded by
Problem 9 		Followed by
Problem 11
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25
All AMC 10 Problems and Solutions

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