Difference between revisions of "TrigFunctionsDegrees1"
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<h2>Trig Functions in Degrees</h2> |
<h2>Trig Functions in Degrees</h2> |
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| − | <p style="background-color:#eeeeee;border:black solid 1px;padding:3px;"> |
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| + | [[File:TrigFunctionsDegrees1.png|300px|thumb|right|Click to enlarge]] |
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| + | <p style="background-color:#f9f9f9;border:black solid 1px;padding:3px;"> |
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This PG code shows how to redefine trigonometric functions so they evaluate in degrees rather than radians. |
This PG code shows how to redefine trigonometric functions so they evaluate in degrees rather than radians. |
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| − | <ul> |
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| − | <li>Download file: [[File:TrigFunctionsDegrees1.txt]] (change the file extension from txt to pg when you save it)</li> |
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| − | <li>File location in NPL: <code>NationalProblemLibrary/FortLewis/Authoring/Templates/Trig/TrigFunctionsDegrees1.pg</code></li> |
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| − | </ul> |
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</p> |
</p> |
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| + | * File location in OPL: [https://github.com/openwebwork/webwork-open-problem-library/blob/master/OpenProblemLibrary/FortLewis/Authoring/Templates/Trig/TrigFunctionsDegrees1.pg FortLewis/Authoring/Templates/Trig/TrigFunctionsDegrees1.pg] |
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| + | |||
| + | <br clear="all" /> |
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<p style="text-align:center;"> |
<p style="text-align:center;"> |
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[[SubjectAreaTemplates|Templates by Subject Area]] |
[[SubjectAreaTemplates|Templates by Subject Area]] |
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| Line 40: | Line 40: | ||
<pre> |
<pre> |
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DOCUMENT(); |
DOCUMENT(); |
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| + | |||
loadMacros( |
loadMacros( |
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"PGstandard.pl", |
"PGstandard.pl", |
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"MathObjects.pl", |
"MathObjects.pl", |
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| + | "AnswerFormatHelp.pl", |
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); |
); |
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| + | |||
TEXT(beginproblem()); |
TEXT(beginproblem()); |
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</pre> |
</pre> |
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| Line 281: | Line 284: | ||
<td style="background-color:#ffdddd;border:black 1px dashed;"> |
<td style="background-color:#ffdddd;border:black 1px dashed;"> |
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<pre> |
<pre> |
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| + | Context()->texStrings; |
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BEGIN_TEXT |
BEGIN_TEXT |
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| − | Enter \( \sin(30) \): |
+ | Enter \( \sin(30) \): |
| + | \{ ans_rule(20) \} |
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| + | \{ AnswerFormatHelp("formulas") \} |
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$BR |
$BR |
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| − | Enter \( \arcsin(1/2) \): |
+ | Enter \( \arcsin(1/2) \): |
| + | \{ ans_rule(20) \} |
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| + | \{ AnswerFormatHelp("formulas") \} |
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$BR |
$BR |
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Caution: Enter \( \arcsin(x) \) as \( \arcsin(x) \) or |
Caution: Enter \( \arcsin(x) \) as \( \arcsin(x) \) or |
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\( \mathrm{asin}(x) \), but not \( \sin^{-1}(x) \). |
\( \mathrm{asin}(x) \), but not \( \sin^{-1}(x) \). |
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END_TEXT |
END_TEXT |
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| + | Context()->normalStrings; |
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</pre> |
</pre> |
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<td style="background-color:#ffcccc;padding:7px;"> |
<td style="background-color:#ffcccc;padding:7px;"> |
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| Line 303: | Line 308: | ||
<td style="background-color:#eeddff;border:black 1px dashed;"> |
<td style="background-color:#eeddff;border:black 1px dashed;"> |
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<pre> |
<pre> |
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| − | ANS( Real(0.5)->cmp() ); |
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| + | $showPartialCorrectAnswers = 1; |
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| − | ANS( Compute("pi/6")->cmp() ); |
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| − | COMMENT("Redefines trig functions to be in degrees (not radians)"); |
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| + | ANS( Real(0.5)->cmp() ); |
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| − | ENDDOCUMENT(); |
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| + | ANS( Real(30)->cmp() ); |
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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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| Line 331: | Line 335: | ||
Context()->normalStrings; |
Context()->normalStrings; |
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| − | COMMENT( |
+ | COMMENT("MathObject version. Redefines trig functions to be in degrees (not radians)."); |
ENDDOCUMENT(); |
ENDDOCUMENT(); |
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| Line 350: | Line 354: | ||
[[Category:Top]] |
[[Category:Top]] |
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| − | [[Category: |
+ | [[Category:Sample Problems]] |
| + | [[Category:Subject Area Templates]] |
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Revision as of 23:25, 15 June 2013
Trig Functions in Degrees
This PG code shows how to redefine trigonometric functions so they evaluate in degrees rather than radians.
- File location in OPL: FortLewis/Authoring/Templates/Trig/TrigFunctionsDegrees1.pg
| PG problem file | Explanation |
|---|---|
|
Problem tagging: |
|
DOCUMENT(); loadMacros( "PGstandard.pl", "MathObjects.pl", "AnswerFormatHelp.pl", ); TEXT(beginproblem()); |
Initialization: We need to use MathObjects answer evaluators. |
Context("Numeric");
##############################################
# Begin trig functions in degrees
Context()->functions->remove("cos");
package NewFunc;
# this next line makes the function a
# function from reals to reals
our @ISA = qw(Parser::Function::numeric);
sub cos {
shift; my $x = shift;
return CORE::cos($x*3.14159265358979/180);
}
package main;
# Make it work on formulas as well as numbers
# if uncommented, this next line will generate error messages
#sub cos {Parser::Function->call('cos',@_)}
# Add the new functions to the Context
Context()->functions->add( cos => {class => 'NewFunc', TeX => '\cos'}, );
Context()->functions->remove("sin");
package NewFunc;
# this next line makes the function a
# function from reals to reals
our @ISA = qw(Parser::Function::numeric);
sub sin {
shift; my $x = shift;
return CORE::sin($x*3.14159265358979/180);
}
package main;
# Make it work on formulas as well as numbers
# if uncommented, this next line will generate error messages
#sub sin {Parser::Function->call('sin',@_)}
# Add the new functions to the Context
Context()->functions->add( sin => {class => 'NewFunc', TeX => '\sin'}, );
Context()->functions->remove("tan");
package NewFunc;
# this next line makes the function a
# function from reals to reals
our @ISA = qw(Parser::Function::numeric);
sub tan {
shift; my $x = shift;
return CORE::sin($x*3.14159265358979/180)/CORE::cos($x*3.14159265358979/180);
}
package main;
# Make it work on formulas as well as numbers
sub tan {Parser::Function->call('tan',@_)}
# Add the new functions to the Context
Context()->functions->add( tan => {class => 'NewFunc', TeX => '\tan'}, );
Context()->functions->remove("sec");
package NewFunc;
# this next line makes the function a
# function from reals to reals
our @ISA = qw(Parser::Function::numeric);
sub sec {
shift; my $x = shift;
return 1.0/CORE::cos($x*3.14159265358979/180);
}
package main;
# Make it work on formulas as well as numbers
sub sec {Parser::Function->call('sec',@_)}
# Add the new functions to the Context
Context()->functions->add( sec => {class => 'NewFunc', TeX => '\sec'}, );
Context()->functions->remove("csc");
package NewFunc;
# this next line makes the function a
# function from reals to reals
our @ISA = qw(Parser::Function::numeric);
sub csc {
shift; my $x = shift;
return 1.0/CORE::sin($x*3.14159265358979/180);
}
package main;
# Make it work on formulas as well as numbers
sub csc {Parser::Function->call('csc',@_)}
# Add the new functions to the Context
Context()->functions->add( csc => {class => 'NewFunc', TeX => '\csc'}, );
Context()->functions->remove("cot");
package NewFunc;
# this next line makes the function a
# function from reals to reals
our @ISA = qw(Parser::Function::numeric);
sub cot {
shift; my $x = shift;
return CORE::cos($x*3.14159265358979/180)/CORE::sin($x*3.14159265358979/180);
}
package main;
# Make it work on formulas as well as numbers
sub cot {Parser::Function->call('cot',@_)}
# Add the new functions to the Context
Context()->functions->add( cot => {class => 'NewFunc', TeX => '\cot'}, );
#sub asin {CORE::atan2($_[1],CORE::sqrt(1-$_[1]*$_[1]))}
#sub acos {CORE::atan2(CORE::sqrt(1-$_[1]*$_[1]),$_[1])}
#sub atan {CORE::atan2($_[1],1)}
#sub acot {CORE::atan2(1,$_[1])}
#sub asec {acos($_[0],1.0/$_[1])}
#sub acsc {asin($_[0],1.0/$_[1])}
Context()->functions->remove("acos");
package NewFunc;
# this next line makes the function a
# function from reals to reals
our @ISA = qw(Parser::Function::numeric);
sub acos {CORE::atan2(CORE::sqrt(1-$_[1]*$_[1]),$_[1])*180/3.14159265358979}
package main;
# Make it work on formulas as well as numbers
sub acos {Parser::Function->call('acos',@_)}
# Add the new functions to the Context
Context()->functions->add( acos => {class => 'NewFunc', TeX => '\arccos'}, );
Context()->functions->remove("asin");
package NewFunc;
# this next line makes the function a
# function from reals to reals
our @ISA = qw(Parser::Function::numeric);
sub asin {CORE::atan2($_[1],CORE::sqrt(1-$_[1]*$_[1]))*180/3.14159265358979}
package main;
# Make it work on formulas as well as numbers
sub asin {Parser::Function->call('asin',@_)}
# Add the new functions to the Context
Context()->functions->add( asin => {class => 'NewFunc', TeX => '\arcsin'}, );
Context()->functions->remove("atan");
package NewFunc;
# this next line makes the function a
# function from reals to reals
our @ISA = qw(Parser::Function::numeric);
sub atan {CORE::atan2($_[1],1)*180/3.14159265358979}
package main;
# Make it work on formulas as well as numbers
sub atan {Parser::Function->call('atan',@_)}
# Add the new functions to the Context
Context()->functions->add( atan => {class => 'NewFunc', TeX => '\arctan'}, );
Context()->functions->remove("asec");
package NewFunc;
# this next line makes the function a
# function from reals to reals
our @ISA = qw(Parser::Function::numeric);
sub asec {CORE::atan2($_[1],CORE::sqrt(1-$_[1]*$_[1]))*180/3.14159265358979}
#sub asec {acos($_[0],1.0/$_[1])}
package main;
# Make it work on formulas as well as numbers
sub asec {Parser::Function->call('asec',@_)}
# Add the new functions to the Context
Context()->functions->add( asec => {class => 'NewFunc', TeX => '\arcsec'}, );
Context()->functions->remove("acsc");
package NewFunc;
# this next line makes the function a
# function from reals to reals
our @ISA = qw(Parser::Function::numeric);
sub acsc {CORE::atan2(CORE::sqrt(1-$_[1]*$_[1]),$_[1])*180/3.14159265358979}
#sub acsc {asin($_[0],1.0/$_[1])}
package main;
# Make it work on formulas as well as numbers
sub acsc {Parser::Function->call('acsc',@_)}
# Add the new functions to the Context
Context()->functions->add( acsc => {class => 'NewFunc', TeX => '\arccsc'}, );
Context()->functions->remove("acot");
package NewFunc;
# this next line makes the function a
# function from reals to reals
our @ISA = qw(Parser::Function::numeric);
sub acot {CORE::atan2(1,$_[1])*180/3.14159265358979}
package main;
# Make it work on formulas as well as numbers
sub acot {Parser::Function->call('acot',@_)}
# Add the new functions to the Context
Context()->functions->add( acot => {class => 'NewFunc', TeX => '\arccot'}, );
# End trig functions in degrees
###################################################
|
Setup: WeBWorK's default is to evaluate trig functions in radians. Radians ought to be used whenever possible. Sometimes, degrees are unavoidable (e.g., when your students are first learning trig and haven't yet been taught radians). The code in this section redefines the standard trig functions to be in degrees, both in any formulas that appear later in the PG code and in any formulas that students enter in answer blanks.
These redefined functions allow students to enter inverse functions using syntax such as
|
Context()->texStrings;
BEGIN_TEXT
Enter \( \sin(30) \):
\{ ans_rule(20) \}
\{ AnswerFormatHelp("formulas") \}
$BR
Enter \( \arcsin(1/2) \):
\{ ans_rule(20) \}
\{ AnswerFormatHelp("formulas") \}
$BR
Caution: Enter \( \arcsin(x) \) as \( \arcsin(x) \) or
\( \mathrm{asin}(x) \), but not \( \sin^{-1}(x) \).
END_TEXT
Context()->normalStrings;
|
Main Text: The problem text section of the file is as we'd expect. |
$showPartialCorrectAnswers = 1; ANS( Real(0.5)->cmp() ); ANS( Real(30)->cmp() ); |
Answer Evaluation: As is the answer. We should include a comment that warns other instructors that trig functions are in degrees instead of radians. |
Context()->texStrings;
BEGIN_SOLUTION
${PAR}SOLUTION:${PAR}
Solution explanation goes here.
END_SOLUTION
Context()->normalStrings;
COMMENT("MathObject version. Redefines trig functions to be in degrees (not radians).");
ENDDOCUMENT();
|
Solution: |
