Difference between revisions of "LimitsOfIntegration1"
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(Created page with '<h2>Answer Blanks in the Limits of Integration</h2> 300px|thumb|right|Click to enlarge <p style="background-color:#f9f9f9;border:black solid 1p…') |
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Context()->texStrings; |
Context()->texStrings; |
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BEGIN_TEXT |
BEGIN_TEXT |
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| − | Question text |
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| + | Find a formula for the function \(f(x)\) such that |
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| + | \( \displaystyle f'(x)= $fpx \) and \( f(2)=5 \). |
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$BR |
$BR |
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$BR |
$BR |
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| − | Answer = |
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| + | $integral |
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| − | \{ ans_rule(20) \} |
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| − | \{ AnswerFormatHelp("formulas") \} |
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END_TEXT |
END_TEXT |
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Context()->normalStrings; |
Context()->normalStrings; |
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$showPartialCorrectAnswers = 1; |
$showPartialCorrectAnswers = 1; |
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| − | ANS( |
+ | ANS( Compute("5")->cmp() ); |
| + | ANS( Compute("x")->cmp() ); |
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| + | ANS( Compute("2")->cmp() ); |
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| + | ANS( Compute("$fpt * dt")->cmp() |
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| + | ->withPostFilter(AnswerHints( |
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| + | Formula("$fpx") => "Are you using the correct variable?", |
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| + | Formula("$fpx*dx") => "Are you using the correct variable?", |
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| + | Formula("$fpt") => "Don't forget the differential dt", |
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| + | )) |
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| + | ); |
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</pre> |
</pre> |
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<td style="background-color:#eeccff;padding:7px;"> |
<td style="background-color:#eeccff;padding:7px;"> |
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Context()->normalStrings; |
Context()->normalStrings; |
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| − | COMMENT('MathObject version.'); |
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| + | |||
| + | COMMENT('MathObject version'); |
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ENDDOCUMENT(); |
ENDDOCUMENT(); |
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Revision as of 16:28, 3 December 2010
Answer Blanks in the Limits of Integration
This PG code shows how to put answer blanks into the limits of integration.
- Download file: File:LimitsOfIntegration1.txt (change the file extension from txt to pg when you save it)
- File location in NPL:
FortLewis/Authoring/Templates/IntegralCalc/LimitsOfIntegration1.pg
| PG problem file | Explanation |
|---|---|
|
Problem tagging: |
|
DOCUMENT(); loadMacros( "PGstandard.pl", "MathObjects.pl", "PGunion.pl", "answerHints.pl", ); TEXT(beginproblem()); |
Initialization: |
Context("Numeric");
Context()->variables->are(
x=>"Real", dx=>"Real",
t=>"Real", dt=>"Real"
);
$fpx = Formula("sin(x)");
$fpt = Formula("sin(t)");
#
# Display the answer blanks properly in different modes
#
Context()->texStrings;
if ($displayMode eq 'TeX') {
$integral =
'\(\displaystyle f(x) = '.
ans_rule(4).
'+ \int_{t = '.
ans_rule(4).
'}^{t = '.
ans_rule(4).
'}'.
ans_rule(20).
'\)';
} else {
$integral =
BeginTable(center=>0).
Row([
'\(f(x)=\)'.$SPACE.ans_rule(4).$SPACE.'\(+\displaystyle\int\)',
'\( t = \)'.ans_rule(4).$BR.$BR.'\( t = \)'.ans_rule(4),
ans_rule(20)],separation=>2).
EndTable();
}
Context()->normalStrings;
|
Setup: |
Context()->texStrings; BEGIN_TEXT Find a formula for the function \(f(x)\) such that \( \displaystyle f'(x)= $fpx \) and \( f(2)=5 \). $BR $BR $integral END_TEXT Context()->normalStrings; |
Main Text: |
$showPartialCorrectAnswers = 1;
ANS( Compute("5")->cmp() );
ANS( Compute("x")->cmp() );
ANS( Compute("2")->cmp() );
ANS( Compute("$fpt * dt")->cmp()
->withPostFilter(AnswerHints(
Formula("$fpx") => "Are you using the correct variable?",
Formula("$fpx*dx") => "Are you using the correct variable?",
Formula("$fpt") => "Don't forget the differential dt",
))
);
|
Answer Evaluation: |
Context()->texStrings;
BEGIN_SOLUTION
${PAR}SOLUTION:${PAR}
Solution explanation goes here.
END_SOLUTION
Context()->normalStrings;
COMMENT('MathObject version');
ENDDOCUMENT();
|
Solution: |
