Change Equation of a Graph: Difference between revisions

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== Remarks ==
== Remarks ==
The doIt function is only responsible for updating the graph. All other dependend objects are self-updating, especially the object p2 which depends on the derivative of function f. This is all done by aononymous functions of JavaScript.
The doIt() function is only responsible for updating the graph. All other dependend objects are self-updating, especially the object p2 which depends on the derivative of function f. This is all done by aononymous functions of JavaScript.

Revision as of 10:21, 15 September 2008

This example shows how you can change the equation of a graph without creating the whole construction again.



HowTo Create this Construction

HTML Part

Adding a text input field somewhere on the page together with a button

<input type="text" id="eingabe" value="Math.sin(x)*Math.cos(x)">
<input type="button" value="set" onClick="doIt()">

JavaScript Part

Setting up the board

  board = JXG.JSXGraph.initBoard('jxgbox', {originX: 250, originY: 250, unitX: 40, unitY: 20});
  // Axes
  b1axisx = board.createElement('axis', [[1,0], [0,0]], {});
  b1axisy = board.createElement('axis', [[0,1], [0,0]], {});

Create a JavaScript Function f(x) From the Text Field

  eval("function f(x){ return "+document.getElementById("eingabe").value+";}");

Use f(x) for defining the Graph

graph = board.createElement('curve', [function(x){ return x; }, function(x){ return f(x); }, "x", -10, 10]);

Define Further Elements

  //glider on the curve
  p1 = board.createElement('glider', [graph], {style:6, name:'P'});
  //define the derivative of f
  g = board.algebra.D(f);
  //a point on the tangent
  //                                 variable x coordinate           variable y coordinate depending on the derivative of f at point p1.X()
  p2 = board.createElement('point', [function() { return p1.X()+1;}, function() {return p1.Y()+board.algebra.D(graph.Y)(p1.X());}], {style:1, name:''});
  //the tangent 
  l1 = board.createElement('line', [p1,p2],{}); 
  //a third point fpr the slope triangle
  p3 = board.createElement('point', [function() { return p2.X();}, function() {return p1.Y();}],{style:1, name:''});
  //the slope triangle
  pol = board.createElement('polygon', [p1,p2,p3], {});
  //a text for displaying slope's value
  //                               variable x coordinate          variable y coordinate                        variable value
  t = board.createElement('text', [function(){return p1.X()+1.1;},function(){return p1.Y()+(p2.Y()-p3.Y())/2;},function(){ return "m="+(board.round(p2.Y()-p3.Y(),2));}]);

Define JavaScript Function doIt() for Reacting on User Input

  function doIt(){
    //redefine function f according to the current text field value
    eval("function f(x){ return "+document.getElementById("eingabe").value+";}");
    //change the yterm attribute of the graph to the new function 
    graph.yterm = function(x){ return f(x); };  // usually: e.g. "x^2"
    graph.Y = graph.yterm;
    //update the graph
    graph.updateCurve();
    //update the whole board
    board.update();
  }

Remarks

The doIt() function is only responsible for updating the graph. All other dependend objects are self-updating, especially the object p2 which depends on the derivative of function f. This is all done by aononymous functions of JavaScript.