Menelaus's theorem: Difference between revisions
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TV(a,b,c) is the affine ratio |ac| / |ab|. | |||
<jsxgraph width="500" height="500"> | <jsxgraph width="500" height="500"> | ||
JXG.Options.label.autoPosition = true; | JXG.Options.label.autoPosition = true; | ||
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<source lang="javascript"> | <source lang="javascript"> | ||
JXG.Options.label.autoPosition = true; | |||
JXG.Options.text.fontSize = 24; | |||
var board = JXG.JSXGraph.initBoard("jxgbox", {boundingbox: [-5,5,5,-5], axis:false, showCopyright:false, showNavigation:false}); | |||
var a = board.create('point', [-1.7, 0], {name:'a'}); | |||
var b = board.create('point', [4, -3], {name:'b'}); | |||
var c = board.create('point', [1, 4], {name:'c'}); | |||
var s1 = board.create('segment', [c, a], {color: 'black'}); | |||
var s2 = board.create('segment', [c, b], {color: 'black'}); | |||
var s3 = board.create('line', [a, b], {color: 'black'}); | |||
var as = board.create('glider', [2, 1.8, s2], {name: "a'"}) | |||
var bs = board.create('glider', [-1, 1.5, s1], {name: "b'"}) | |||
var s4 = board.create('line', [as, bs], {color: 'black'}); | |||
var cs = board.create('glider', [-3, 3.3, s3], {name: "c'"}); | |||
var TV = function(p,q,t) { | |||
return p.Dist(t) / p.Dist(q); | |||
}; | |||
var txt = board.create('text', [-4.5, -4, function() { | |||
return "TV(a',c,b) * TV(b',a,c) * TV(c',b,a) = " + (TV(as,c,b)*TV(bs,a,c)*TV(cs,b,a)).toFixed(2); }]); | |||
</source> | </source> | ||
[[Category:Examples]] | [[Category:Examples]] | ||
[[Category:Geometry]] | [[Category:Geometry]] | ||
Revision as of 20:40, 2 May 2021
TV(a,b,c) is the affine ratio |ac| / |ab|.
The underlying JavaScript code
JXG.Options.label.autoPosition = true;
JXG.Options.text.fontSize = 24;
var board = JXG.JSXGraph.initBoard("jxgbox", {boundingbox: [-5,5,5,-5], axis:false, showCopyright:false, showNavigation:false});
var a = board.create('point', [-1.7, 0], {name:'a'});
var b = board.create('point', [4, -3], {name:'b'});
var c = board.create('point', [1, 4], {name:'c'});
var s1 = board.create('segment', [c, a], {color: 'black'});
var s2 = board.create('segment', [c, b], {color: 'black'});
var s3 = board.create('line', [a, b], {color: 'black'});
var as = board.create('glider', [2, 1.8, s2], {name: "a'"})
var bs = board.create('glider', [-1, 1.5, s1], {name: "b'"})
var s4 = board.create('line', [as, bs], {color: 'black'});
var cs = board.create('glider', [-3, 3.3, s3], {name: "c'"});
var TV = function(p,q,t) {
return p.Dist(t) / p.Dist(q);
};
var txt = board.create('text', [-4.5, -4, function() {
return "TV(a',c,b) * TV(b',a,c) * TV(c',b,a) = " + (TV(as,c,b)*TV(bs,a,c)*TV(cs,b,a)).toFixed(2); }]);
