Difference between revisions of "GraphsInTables"
Line 649: | Line 649: | ||
<td style="background-color:#ccffcc;padding:7px;"> |
<td style="background-color:#ccffcc;padding:7px;"> |
||
<p> |
<p> |
||
− | The <code>imageRow</code> function displays multiple images in a row, although it often shrinks down graphics so that they become unusable. For legacy support, we have included it here. Its first argument is a list of image files and its second argument <code>["A","B"]</code> is a list of caption names. You are strongly recommended not to put four or more images in the same imageRow. Instead, use multiple imageRows. The double quotes in caption names are necessary, for example, to prevent the string "E" from being interpreted as E = 2.718... |
+ | The <code>imageRow</code> function displays multiple images in a row, although it often shrinks down graphics so that they become unusable, especially in the pdf hardcopy. For legacy support, we have included it here. Its first argument is a list of image files and its second argument <code>["A","B"]</code> is a list of caption names. You are strongly recommended not to put four or more images in the same imageRow. Instead, use multiple imageRows. The double quotes in caption names are necessary, for example, to prevent the string "E" from being interpreted as E = 2.718... |
</p> |
</p> |
||
</td> |
</td> |
Revision as of 22:37, 20 March 2010
Putting Graphs Into Tables
This PG code shows how to put graphs into tables so that they will be displayed compactly and a proper size in both HTML and TeX modes.
- Example 1: A multiple choice problem in which we create an array of graphs with two columns (or three columns) that is below a text block (not side-by-side with text) using BeginTable from unionTables.pl.
- Example 2: A free response problem in which we put a long text block and a graph side-by-side using ColumnTable from unionTables.pl.
- Example 3: A matching problem in which we display a long, narrow text block and an array of graphs side-by-side using ColumnTable and BeginTable from unionTables.pl
- Example 4: (Not recommended) Using imageRow
Example 1: A multiple choice problem in which we create an array of graphs with two columns that is below a text block (not side-by-side with text) using BeginTable from unionTables.pl.
PG problem file | Explanation |
---|---|
DOCUMENT(); loadMacros( "PGstandard.pl", "PGchoicemacros.pl", "PGgraphmacros.pl", "unionTables.pl", "parserPopUp.pl", ); TEXT(beginproblem()); $refreshCachedImages=1; |
Initialization:
Be sure to load |
$f[0] = "-exp(x) for x in <-2.5,2.5> using color:red and weight:2"; $gr[0] = init_graph(-2.5,-10,2.5,1,'axes'=>[0,0]); $gr[0]->lb('reset'); $gr[0]->lb(new Label(2.25,0.25,'x','black','center','middle')); $gr[0]->lb(new Label(0.15,0.75,'y','black','center','middle')); $f[1] = "exp(-x) for x in <-2.5,2.5> using color:red and weight:2"; $gr[1] = init_graph(-2.5,-1,2.5,10,'axes'=>[0,0]); $gr[1]->lb('reset'); $gr[1]->lb(new Label(2.25,-0.25,'x','black','center','middle')); $gr[1]->lb(new Label(0.15,9.75,'y','black','center','middle')); $f[2] = "-exp(-x) for x in <-2.5,2.5> using color:red and weight:2"; $gr[2] = init_graph(-2.5,-10,2.5,1,'axes'=>[0,0]); $gr[2]->lb('reset'); $gr[2]->lb(new Label(2.25,0.25,'x','black','center','middle')); $gr[2]->lb(new Label(0.15,0.75,'y','black','center','middle')); $f[3] = "exp(x) for x in <-2.5,2.5> using color:red and weight:2"; $gr[3] = init_graph(-2.5,-1,2.5,10,'axes'=>[0,0]); $gr[3]->lb('reset'); $gr[3]->lb(new Label(2.25,-0.25,'x','black','center','middle')); $gr[3]->lb(new Label(0.15,9.75,'y','black','center','middle')); for $i (0..3) { plot_functions( $gr[$i], $f[$i]); $fig[$i]=image(insertGraph($gr[$i]), width=>200,height=>200,tex_size=>450); } @eqn =("\( y = -e^{x} \)", "\( y = e^{-x} \)", "\( y = -e^{-x} \)", "\( y = e^{x} \)"); $k = random(0,3,1); @perm = shuffle(4); @fig = @fig[@perm]; @inv = invert(@perm); @letter = ("A", "B", "C", "D"); $popup = PopUp(["?","A","B","C","D"], $letter[$inv[$k]]); |
Setup:
Generate graphs to be included in the main text. Notice our choice for the size of each graph is
Pick one equation and graph at random (using
If, instead, we had six graphs and desired a three-column array of graphs, we would want to change for $i (0..5) { plot_functions( $gr[$i], $f[$i]); $gr[$i]=image(insertGraph($gr[$i]), width=>200,height=>200,tex_size=>310); } You are strongly discouraged from using more than three columns in an array of graphs because otherwise you have to scale the graphs down so much that they become unreadable (especially in TeX mode). |
BEGIN_TEXT Consider the exponential equation $eqn[$k]. Without using a calculator, sketch a graph of this equation on paper. $BR $BR Which graph A-D below most closely matches the graph you drew? \{ $popup->menu() \} $BR $BR $BCENTER \{ BeginTable(). AlignedRow([$fig[0],$fig[1]]). TableSpace(5,0). AlignedRow(["A","B"]). TableSpace(25,6). AlignedRow([$fig[2],$fig[3]]). TableSpace(5,0). AlignedRow(["C","D"]). EndTable(); \} $BR (Click on a graph to enlarge it.) $ECENTER END_TEXT |
Main Text:
Use commands such as If, instead, we had six graphs we wanted to display in three columns, we would use the following code. \{ BeginTable(). AlignedRow([$fig[0],$fig[1],$fig[2]]). TableSpace(5,0). AlignedRow(["A","B","C"]). TableSpace(25,6). AlignedRow([$fig[3],$fig[4],$fig[5]]). TableSpace(5,0). AlignedRow(["D","E","F"]). EndTable(). $BR.$BCENTER."(Click on a graph to enlarge it)".$ECENTER \} |
install_problem_grader(~~&std_problem_grader); $showPartialCorrectAnswers = 0; ANS( $popup->cmp() ); ENDDOCUMENT(); |
Answer Evaluation: To prevent students from guessing, use the standard problem grader and withhold feedback. |
Example 2: A free response problem in which we put a long text block and a graph side-by-side using ColumnTable from unionTables.pl.
PG problem file | Explanation |
---|---|
DOCUMENT(); loadMacros( "PGstandard.pl", "PGgraphmacros.pl", "MathObjects.pl", "unionTables.pl", # or "PGunion.pl", ); TEXT(beginproblem()); $refreshCachedImages=1; |
Initialization:
Be sure to load |
Context("Numeric"); $a = random(2,3,1); # -$a is the left x-intercept $b = random(2,4,2); # $b is the right x-intercept $c = random(1,4,1); # -$c is the y-intercept $k = $c/($a * $b); $A = $k; $B = $k*($a - $b); $C = -($c); $gr = init_graph(-5,-5,5,5,axes=>[0,0],grid=>[10,10]); add_functions($gr, "$A*x**2+$B*x+$C for x in <-5,5> using color:blue and weight:2"); $gr -> lb(new Label ( 4.5,0,'x','black','left','bottom')); $gr -> lb(new Label ( 0.25,8.5,'y','black','left','bottom')); $gr -> lb(new Label ( 0.25,$c,'y = f(x)','black','left','bottom')); |
Setup:
Generate a graph to be included in the main text. This graph is a parabola opening up with roots |
Context()->texStrings; BEGIN_TEXT \{ ColumnTable( "Use the graph to find the missing values. There may be more than one correct answer, in which case you should enter your answers as a comma separated list. If there are no correct answers, enter ${BITALIC}NONE.${EITALIC}". $BR. $BR. "(a) \( f(0) = \) ". ans_rule(7). $BR. $BR. "(b) \( f \big( \) ".ans_rule(7)." \( \big) = 0 \). ", # comma! $BCENTER. image(insertGraph($gr), width=>400, height=>400, tex_size=>700). $BR. "(Click on graph to enlarge)". $ECENTER, # comma! indent => 0, separation => 30, valign => "TOP" ) \} END_TEXT Context()->normalStrings; |
Main Text:
We use Using ColumnTable has two main advantages.
|
$showPartialCorrectAnswers = 1; ANS( List(-$c)->cmp() ); ANS( List(-$a,$b)->cmp() ); ENDDOCUMENT(); |
Answer Evaluation:
Since there may be multiple answers, we use |
Example 3: A matching problem in which we display a long, narrow text block and an array of graphs side-by-side using ColumnTable and BeginTable from unionTables.pl.
PG problem file | Explanation |
---|---|
DOCUMENT(); loadMacros( "PGstandard.pl", "PGchoicemacros.pl", "PGgraphmacros.pl", "unionTables.pl", ); TEXT(beginproblem()); $refreshCachedImages=1; |
Initialization:
Be sure to load |
#################################### # Create blank canvases with labels # foreach my $j (0..5) { $graph[$j] = init_graph(-10,-10,10,10,'axes'=>[0,0], 'ticks'=>[10,10],'size'=>[400,400]); $graph[$j]->lb('reset'); foreach my $i (1..4) { $graph[$j]->lb(new Label(2*$i,-.1,2*$i,'black','center','top')); $graph[$j]->lb(new Label(-2*$i,-.1,-2*$i,'black','center','top')); $graph[$j]->lb(new Label(-.1,2*$i,2*$i,'black','right','middle')); $graph[$j]->lb(new Label(-.1,-2*$i,-2*$i,'black','right','middle')); } $graph[$j]->lb(new Label(9.8,-0.1,"x",'black','right','top')); $graph[$j]->lb(new Label(-.1,9.8,"y",'black','right','top')); } ######################################### # Manually add functions to the canvases # $f[0] = "\frac{-1}{x-5}-1"; plot_functions($graph[0], "-1/(x-5)-1 for x in <-10,4.99> using color:blue and weight:2", "-1/(x-5)-1 for x in <5.01,10> using color:blue and weight:2", ); # vertical asymptote $graph[0]->moveTo(5,-10); $graph[0]->lineTo(5,10,'black',1,'dashed'); # horizontal asymptote $graph[0]->moveTo(-10,-1); $graph[0]->lineTo(10,-1,'black',1,'dashed'); $f[1] = "\frac{x-2}{(x+1)(x-3)}"; plot_functions($graph[1], "(x-2)/((x+1)*(x-3)) for x in <-10,-1.01> using color:blue and weight:2", "(x-2)/((x+1)*(x-3)) for x in <-0.99,2.99> using color:blue and weight:2", "(x-2)/((x+1)*(x-3)) for x in <3.01,10> using color:blue and weight:2", ); # vertical asymptote $graph[1]->moveTo(-1,-10); $graph[1]->lineTo(-1,10,'black',1,'dashed'); # vertical asymptote $graph[1]->moveTo(3,-10); $graph[1]->lineTo(3,10,'black',1,'dashed'); $f[2] = "\frac{2x+4}{x-1}"; plot_functions($graph[2], "(2x+4)/(x-1) for x in <-10,0.99> using color:blue and weight:2", "(2x+4)/(x-1) for x in <1.01,10> using color:blue and weight:2", ); # vertical asymptote $graph[2]->moveTo(1,-10); $graph[2]->lineTo(1,10,'black',1,'dashed'); # horizontal asymptote $graph[2]->moveTo(-10,2); $graph[2]->lineTo(10,2,'black',1,'dashed'); $f[3] = "\frac{1}{x+1} + \frac{1}{x-3}"; plot_functions($graph[3], "1/(x+1)+1/(x-3) for x in <-10,-1.01> using color:blue and weight:2", "1/(x+1)+1/(x-3) for x in <-0.99,2.99> using color:blue and weight:2", "1/(x+1)+1/(x-3) for x in <3.01,10> using color:blue and weight:2", ); # vertical asymptote $graph[3]->moveTo(-1,-10); $graph[3]->lineTo(-1,10,'black',1,'dashed'); # vertical asymptote $graph[3]->moveTo(3,-10); $graph[3]->lineTo(3,10,'black',1,'dashed'); $f[4] = "\frac{1-x^2}{x-2}+3"; plot_functions($graph[4], "(1-x^2)/(x-2)+3 for x in <-10,1.99> using color:blue and weight:2", "(1-x^2)/(x-2)+3 for x in <2.01,10> using color:blue and weight:2", ); # vertical asymptote $graph[4]->moveTo(2,-10); $graph[4]->lineTo(2,10,'black',1,'dashed'); $f[5] = "\frac{1-4x}{2x+2}"; plot_functions($graph[5], "(1-4x)/(2x+2) for x in <-10,-1.01> using color:blue and weight:2", "(1-4x)/(2x+2) for x in <-0.99,10> using color:blue and weight:2", ); # vertical asymptote $graph[5]->moveTo(-1,-10); $graph[5]->lineTo(-1,10,'black',1,'dashed'); # horizontal asymptote $graph[5]->moveTo(-10,-2); $graph[5]->lineTo(10,-2,'black',1,'dashed'); ############################################### # Create figures that can be inserted directly # foreach $j (0..5) { $fig[$j] = image(insertGraph($graph[$j]), width => 200, height => 200, tex_size => 310); } ############################################### # Shuffle the figures # @perm = shuffle(6); @inv = invert(@perm); @fig = @fig[@perm]; @letter = ("A","B","C","D","E","F"); |
Setup: Generate a number of graphs to be included in the main text. Then, near the bottom, shuffle the graphs. |
BEGIN_TEXT \{ ColumnTable( "Without a calculator, match each function with its graph A-F ". "by finding the zeros, asymptotes, and end behavior for each function.". $BR.$BR.pop_up_list(["?",@letter]).$SPACE."\( \displaystyle y = $f[0] \)". $BR.$BR.pop_up_list(["?",@letter]).$SPACE."\( \displaystyle y = $f[1] \)". $BR.$BR.pop_up_list(["?",@letter]).$SPACE."\( \displaystyle y = $f[2] \)". $BR.$BR.pop_up_list(["?",@letter]).$SPACE."\( \displaystyle y = $f[3] \)". $BR.$BR.pop_up_list(["?",@letter]).$SPACE."\( \displaystyle y = $f[4] \)". $BR.$BR.pop_up_list(["?",@letter]).$SPACE."\( \displaystyle y = $f[5] \)",# comma! $BCENTER. BeginTable(). AlignedRow([$fig[0],$fig[1],$fig[2]]). TableSpace(5,0). AlignedRow(["A","B","C"]). TableSpace(25,6). AlignedRow([$fig[3],$fig[4],$fig[5]]). TableSpace(5,0). AlignedRow(["D","E","F"]). EndTable(). $BR."(Click on a graph to enlarge it)".$ECENTER, # comma! indent => 0, separation => 10, valign => "TOP" ) \} END_TEXT |
Main Text:
We use |
install_problem_grader(~~&std_problem_grader); $showPartialCorrectAnswers = 0; foreach $j (0..5) { ANS( str_cmp($letter[$inv[$j]]) ); } ENDDOCUMENT(); |
Answer Evaluation:
To keep students from guessing, we use the all-or-nothing grader |
Example 4: (Not recommended) Using imageRow
PG problem file | Explanation |
---|---|
BEGIN_TEXT \{ imageRow( ["graph1.png","graph2.png"], ["A","B"], width=>250, height=>250, tex_size=>450 ) \} \{ imageRow( ["g1.png","g2.png","g3.png"], ["A","B","C"], width=>200, height=>200, tex_size=>310 ) \} END_TEXT |
The |