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[[PREP_2011|Prep Main Page]] > [[PREP_2011_Web_Conference_II|Web Conference 2]] > [[SampleProblems|Sample Problems]] > Problem 9 | [[PREP_2011|Prep Main Page]] > [[PREP_2011_Web_Conference_II|Web Conference 2]] > [[SampleProblems|Sample Problems]] > Problem 9 | ||
This is | This is Library/Rochester/setLimitsRates5Continuity/S02.05.Continuity.PTP01.pg | ||
DOCUMENT(); | |||
loadMacros( | |||
"PGbasicmacros.pl", | |||
"PGchoicemacros.pl", | |||
"PGanswermacros.pl", | |||
"PGgraphmacros.pl", | |||
"PGauxiliaryFunctions.pl", | |||
"extraAnswerEvaluators.pl" | |||
); | |||
TEXT(beginproblem()); | |||
$showPartialCorrectAnswers = 1; | |||
$a=random(1,3,1); | |||
$b=non_zero_random(-3,0,1); | |||
$c=random(-3,2,1); | |||
$m1=non_zero_random(-1,1,0.5); | |||
$m2= - $m1; | |||
$m3=non_zero_random(-1,1,1); | |||
$m4=non_zero_random(-1,1,1); | |||
@slice = NchooseK(3,3); | |||
@colors = ("blue", "red", "green"); | |||
@sc = @colors[@slice]; #scrambled colors | |||
@sa = ('A','B','C')[@slice]; | |||
$f1 = FEQ("sin(10*(x+1)) + $b for x in [-2,-1) using color:$sc[0] and weight:2"); | |||
$f2 = FEQ("1 + $a for x in [-1,-1] using color=$sc[0] and weight=2"); | |||
$f3 = FEQ("${m3}/((3*x)**2) + $b - ${m3}*1/9 for x in (-1,0) using " . | |||
"color=$sc[0] and weight:2"); | |||
$f4 = FEQ("${m4}/((3*x)**2) + $b - ${m4}*1/9 for x in (0,1) using " . | |||
"color=$sc[0] and weight:2"); | |||
$f5 = FEQ("$b/5 for x in [1,1] using color=$sc[0] and weight=2"); | |||
$f6 = FEQ("${m1}*(x-3)+$c for x in (1,3] using color=$sc[0] and weight=2"); | |||
$f7 = FEQ("${m2}*(x-3)+$c for x in [3,4] using color=$sc[0] and weight=2"); | |||
$graph = init_graph(-3,-6,5,6,'axes'=>[0,0],'grid'=>[8,12]); | |||
($f1Ref,$f2Ref,$f3Ref,$f4Ref,$f5Ref,$f6Ref,$f7Ref) = | |||
plot_functions($graph,$f1,$f2,$f3,$f4,$f5,$f6,$f7); | |||
TEXT(EV2(<<EOT)); | |||
Let \( f \) be the function below.$PAR | |||
EOT | |||
TEXT(image( insertGraph($graph) , height=>200, width=>200)); | |||
TEXT(EV2(<<EOT)); | |||
$BR | |||
$BR | |||
Use \{ helpLink('interval notation')\} to indicate where \( f(x) \) | |||
is continuous. If it is continuous on more than one interval, | |||
use $BITALICS U $EITALICS for union. You may click on the graph to | |||
make it larger. | |||
\<ans_rule(40)\> | |||
EOT | |||
ANS(interval_cmp("[-2,-1)U(-1,0)U(0,1)U(1,4]")); | |||
ENDDOCUMENT(); | |||
[[Category:PREP 2011]] | |||
Latest revision as of 17:18, 16 June 2021
Prep Main Page > Web Conference 2 > Sample Problems > Problem 9
This is Library/Rochester/setLimitsRates5Continuity/S02.05.Continuity.PTP01.pg
DOCUMENT();
loadMacros(
"PGbasicmacros.pl",
"PGchoicemacros.pl",
"PGanswermacros.pl",
"PGgraphmacros.pl",
"PGauxiliaryFunctions.pl",
"extraAnswerEvaluators.pl"
);
TEXT(beginproblem());
$showPartialCorrectAnswers = 1;
$a=random(1,3,1);
$b=non_zero_random(-3,0,1);
$c=random(-3,2,1);
$m1=non_zero_random(-1,1,0.5);
$m2= - $m1;
$m3=non_zero_random(-1,1,1);
$m4=non_zero_random(-1,1,1);
@slice = NchooseK(3,3);
@colors = ("blue", "red", "green");
@sc = @colors[@slice]; #scrambled colors
@sa = ('A','B','C')[@slice];
$f1 = FEQ("sin(10*(x+1)) + $b for x in [-2,-1) using color:$sc[0] and weight:2");
$f2 = FEQ("1 + $a for x in [-1,-1] using color=$sc[0] and weight=2");
$f3 = FEQ("${m3}/((3*x)**2) + $b - ${m3}*1/9 for x in (-1,0) using " .
"color=$sc[0] and weight:2");
$f4 = FEQ("${m4}/((3*x)**2) + $b - ${m4}*1/9 for x in (0,1) using " .
"color=$sc[0] and weight:2");
$f5 = FEQ("$b/5 for x in [1,1] using color=$sc[0] and weight=2");
$f6 = FEQ("${m1}*(x-3)+$c for x in (1,3] using color=$sc[0] and weight=2");
$f7 = FEQ("${m2}*(x-3)+$c for x in [3,4] using color=$sc[0] and weight=2");
$graph = init_graph(-3,-6,5,6,'axes'=>[0,0],'grid'=>[8,12]);
($f1Ref,$f2Ref,$f3Ref,$f4Ref,$f5Ref,$f6Ref,$f7Ref) =
plot_functions($graph,$f1,$f2,$f3,$f4,$f5,$f6,$f7);
TEXT(EV2(<<EOT));
Let \( f \) be the function below.$PAR
EOT
TEXT(image( insertGraph($graph) , height=>200, width=>200));
TEXT(EV2(<<EOT));
$BR
$BR
Use \{ helpLink('interval notation')\} to indicate where \( f(x) \)
is continuous. If it is continuous on more than one interval,
use $BITALICS U $EITALICS for union. You may click on the graph to
make it larger.
\<ans_rule(40)\>
EOT
ANS(interval_cmp("[-2,-1)U(-1,0)U(0,1)U(1,4]"));
ENDDOCUMENT();