Annotation of /trunk/NationalProblemLibrary/WHFreeman/Rogawski_Calculus_Early_Transcendentals_Second_Edition/10_Infinite_Series/10.1_Sequences/10.1.43.pg

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1 :	aubreyja	2584	## DBsubject('Calculus')
2 :			## DBchapter('Limits and Derivatives')
3 :			## DBsection('Definition of the Derivative')
4 :			## KEYWORDS('calculus', 'derivatives', 'slope')
5 :			## TitleText1('Calculus: Early Transcendentals')
6 :			## EditionText1('2')
7 :			## AuthorText1('Rogawski')
8 :			## Section1('10.1')
9 :			## Problem1('43')
10 :			## Author('Keith Thompson')
11 :			## Institution('W.H.Freeman')
12 :
13 :			DOCUMENT();
14 :			loadMacros("PG.pl","PGbasicmacros.pl","PGanswermacros.pl");
15 :			loadMacros("Parser.pl");
16 :			loadMacros("freemanMacros.pl");
17 :			loadMacros("PGauxiliaryFunctions.pl");
18 :			loadMacros("PGgraphmacros.pl");
19 :
20 :			#$showPartialCorrectAnswers=1;
21 :
22 :			$num=random(2,9);
23 :			$den=random(2,13);
24 :			$ans=$num/$den;
25 :			Context()->texStrings;
26 :			BEGIN_TEXT
27 :			\{ beginproblem() \}
28 :			\{ textbook_ref_exact("Rogawski ET 2e", "10.1","43") \}
29 :			$PAR
30 :			Determine the limit of the sequence or show that the sequence diverges by using the appropriate Limit Laws or theorems. If the sequence diverges, enter DIV as your answer.
31 :			\[a_n=\frac{$num n^2+n+2}{$den n^2-3}\]
32 :
33 :			$PAR
34 :			$\lim\limits_{n\to\infty}a_n = $ \{ans_rule()\}
35 :			END_TEXT
36 :
37 :			Context()->normalStrings;
38 :
39 :			#ANS(Real($ans)->cmp);
40 :			ANS(std_num_str_cmp($ans,['DIV']));
41 :
42 :			Context()->texStrings;
43 :			SOLUTION(EV3(<<'END_SOLUTION'));
44 :			$PAR
45 :			$SOL
46 :			We have $a_n=f(n)$, where $f(x)=\frac{$num x^2+x+2}{$den x^2-3}$. Thus,
47 :
48 :			\[\lim_{n\rightarrow \infty} \frac{$num n^2+n+2}{$den n^2-3} = \lim_{x\rightarrow \infty} \frac{$num x^2+x+2}{$den x^2-3} =\frac{$num}{$den}.\]
49 :			END_SOLUTION
50 :
51 :			ENDDOCUMENT();

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