Logarithmic spiral: Difference between revisions

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  var c = board.createElement('curve', [function(phi){return a.Value()*JXG.Math.pow(Math.E,b.Value()*phi); }, [0, 0],0, 8*Math.PI],
  var c = board.createElement('curve', [function(phi){return a.Value()*JXG.Math.pow(Math.E,b.Value()*phi); }, [0, 0],0, 8*Math.PI],
             {curveType:'polar', strokewidth:4});         
             {curveType:'polar', strokewidth:4});         
  var g = board.createElement('glider', [c]);
  var g = board.createElement('glider', [c], {type:'[]');
  var t = board.createElement('tangent', [g], {dash:2,strokeColor:'#a612a9'});
  var t = board.createElement('tangent', [g], {dash:2,strokeColor:'#a612a9'});
</source>
</source>

Revision as of 11:41, 7 August 2013

It can be described in polar coordinates [math]\displaystyle{ (r, \theta) }[/math] by the equation

[math]\displaystyle{ r = ae^{b\theta}\, }[/math]

with real numbers [math]\displaystyle{ a }[/math] and [math]\displaystyle{ b }[/math].

The JavaScript code to produce this picture

 board = JXG.JSXGraph.initBoard('jsxgbox', {boundingbox: [-10, 10, 10, -10]});
 var a = board.createElement('slider', [[1,-1],[5,-1],[0,0.3,1]],{name:'a'});
 var b = board.createElement('slider', [[1,-2],[5,-2],[0,0.15,1]],{name:'b'});
 var c = board.createElement('curve', [function(phi){return a.Value()*JXG.Math.pow(Math.E,b.Value()*phi); }, [0, 0],0, 8*Math.PI],
             {curveType:'polar', strokewidth:4});        
 var g = board.createElement('glider', [c], {type:'[]');
 var t = board.createElement('tangent', [g], {dash:2,strokeColor:'#a612a9'});