<iframe src="http://jsxgraph.uni-bayreuth.de/share/iframe/continuous-function-epsilon-delta-criterium" style="border: 1px solid black; overflow: hidden; width: 550px; aspect-ratio: 55 / 65;" name="JSXGraph example: Continuous function: ε-δ criterium" allowfullscreen ></iframe>
<div id="board-0-wrapper" class="jxgbox-wrapper " style="width: 100%; "> <div id="board-0" class="jxgbox" style="aspect-ratio: 1 / 1; width: 100%;" data-ar="1 / 1"></div> </div> <script type = "text/javascript"> /* This example is licensed under a Creative Commons Attribution 4.0 International License. https://creativecommons.org/licenses/by/4.0/ Please note you have to mention The Center of Mobile Learning with Digital Technology in the credits. */ const BOARDID = 'board-0'; const board = JXG.JSXGraph.initBoard(BOARDID, { boundingbox: [-4, 6, 6, -4], axis: true }); var f = (x) => (x < 1) ? 0.5 * x * x : x + 1; var graph = board.create('functiongraph', [f], { strokeColor: '#0000ff' }); var s = board.create('slider', [ [0, -1], [4, -1], [0, 1, 1] ], { name: 'δ' }); var x1 = board.create('glider', [-2, 0, board.defaultAxes.x], { name: 'a' }); // Helper points var x2 = board.create('point', [() => x1.X() - s.Value(), 0], {size: 2, face: '[]', name: ''}); var x3 = board.create('point', [() => x1.X() + s.Value(), 0], {size: 2, face: '[]', name: ''}); var y1 = board.create('point', [() => x1.X(), () => f(x1.X())], {size: 2, face: '[]', name: 'f(a)'}); var y2 = board.create('point', [() => x2.X(), () => f(x2.X())], {size: 2, face: '[]', name: ''}); var y3 = board.create('point', [() => x3.X(), () => f(x3.X())], {size: 2, face: '[]', name: ' '}); // Vertical helper lines var v1 = board.create('segment', [x1, y1], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); var v2 = board.create('line', [x2, y2], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); var v3 = board.create('line', [x3, y3], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); // Horizontal helper lines (realized as curves) var h1 = board.create('curve', [(t) => t, (t) => y1.Y()], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); var h2 = board.create('curve', [(t) => t, (t) => y2.Y()], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); var h3 = board.create('curve', [(t) => t, (t) => y3.Y()], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); // Determine minimum epsilon var txt = board.create('text', [4.2, -1.5, function() { return 'ε = ' + Math.max(Math.abs(y2.Y() - y1.Y()), Math.abs(y1.Y() - y3.Y())).toFixed(5); }], { strokeColor: 'blue' }); </script>
/* This example is licensed under a Creative Commons Attribution 4.0 International License. https://creativecommons.org/licenses/by/4.0/ Please note you have to mention The Center of Mobile Learning with Digital Technology in the credits. */ const BOARDID = 'your_div_id'; // Insert your id here! const board = JXG.JSXGraph.initBoard(BOARDID, { boundingbox: [-4, 6, 6, -4], axis: true }); var f = (x) => (x < 1) ? 0.5 * x * x : x + 1; var graph = board.create('functiongraph', [f], { strokeColor: '#0000ff' }); var s = board.create('slider', [ [0, -1], [4, -1], [0, 1, 1] ], { name: 'δ' }); var x1 = board.create('glider', [-2, 0, board.defaultAxes.x], { name: 'a' }); // Helper points var x2 = board.create('point', [() => x1.X() - s.Value(), 0], {size: 2, face: '[]', name: ''}); var x3 = board.create('point', [() => x1.X() + s.Value(), 0], {size: 2, face: '[]', name: ''}); var y1 = board.create('point', [() => x1.X(), () => f(x1.X())], {size: 2, face: '[]', name: 'f(a)'}); var y2 = board.create('point', [() => x2.X(), () => f(x2.X())], {size: 2, face: '[]', name: ''}); var y3 = board.create('point', [() => x3.X(), () => f(x3.X())], {size: 2, face: '[]', name: ' '}); // Vertical helper lines var v1 = board.create('segment', [x1, y1], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); var v2 = board.create('line', [x2, y2], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); var v3 = board.create('line', [x3, y3], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); // Horizontal helper lines (realized as curves) var h1 = board.create('curve', [(t) => t, (t) => y1.Y()], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); var h2 = board.create('curve', [(t) => t, (t) => y2.Y()], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); var h3 = board.create('curve', [(t) => t, (t) => y3.Y()], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); // Determine minimum epsilon var txt = board.create('text', [4.2, -1.5, function() { return 'ε = ' + Math.max(Math.abs(y2.Y() - y1.Y()), Math.abs(y1.Y() - y3.Y())).toFixed(5); }], { strokeColor: 'blue' });
<jsxgraph width="100%" aspect-ratio="1 / 1" title="Continuous function: ε-δ criterium" description="This construction was copied from JSXGraph examples database: BTW HERE SHOULD BE A GENERATED LINKuseGlobalJS="false"> /* This example is licensed under a Creative Commons Attribution 4.0 International License. https://creativecommons.org/licenses/by/4.0/ Please note you have to mention The Center of Mobile Learning with Digital Technology in the credits. */ const board = JXG.JSXGraph.initBoard(BOARDID, { boundingbox: [-4, 6, 6, -4], axis: true }); var f = (x) => (x < 1) ? 0.5 * x * x : x + 1; var graph = board.create('functiongraph', [f], { strokeColor: '#0000ff' }); var s = board.create('slider', [ [0, -1], [4, -1], [0, 1, 1] ], { name: 'δ' }); var x1 = board.create('glider', [-2, 0, board.defaultAxes.x], { name: 'a' }); // Helper points var x2 = board.create('point', [() => x1.X() - s.Value(), 0], {size: 2, face: '[]', name: ''}); var x3 = board.create('point', [() => x1.X() + s.Value(), 0], {size: 2, face: '[]', name: ''}); var y1 = board.create('point', [() => x1.X(), () => f(x1.X())], {size: 2, face: '[]', name: 'f(a)'}); var y2 = board.create('point', [() => x2.X(), () => f(x2.X())], {size: 2, face: '[]', name: ''}); var y3 = board.create('point', [() => x3.X(), () => f(x3.X())], {size: 2, face: '[]', name: ' '}); // Vertical helper lines var v1 = board.create('segment', [x1, y1], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); var v2 = board.create('line', [x2, y2], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); var v3 = board.create('line', [x3, y3], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); // Horizontal helper lines (realized as curves) var h1 = board.create('curve', [(t) => t, (t) => y1.Y()], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); var h2 = board.create('curve', [(t) => t, (t) => y2.Y()], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); var h3 = board.create('curve', [(t) => t, (t) => y3.Y()], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); // Determine minimum epsilon var txt = board.create('text', [4.2, -1.5, function() { return 'ε = ' + Math.max(Math.abs(y2.Y() - y1.Y()), Math.abs(y1.Y() - y3.Y())).toFixed(5); }], { strokeColor: 'blue' }); </jsxgraph>
// Define the id of your board in BOARDID const board = JXG.JSXGraph.initBoard(BOARDID, { boundingbox: [-4, 6, 6, -4], axis: true }); var f = (x) => (x < 1) ? 0.5 * x * x : x + 1; var graph = board.create('functiongraph', [f], { strokeColor: '#0000ff' }); var s = board.create('slider', [ [0, -1], [4, -1], [0, 1, 1] ], { name: 'δ' }); var x1 = board.create('glider', [-2, 0, board.defaultAxes.x], { name: 'a' }); // Helper points var x2 = board.create('point', [() => x1.X() - s.Value(), 0], {size: 2, face: '[]', name: ''}); var x3 = board.create('point', [() => x1.X() + s.Value(), 0], {size: 2, face: '[]', name: ''}); var y1 = board.create('point', [() => x1.X(), () => f(x1.X())], {size: 2, face: '[]', name: 'f(a)'}); var y2 = board.create('point', [() => x2.X(), () => f(x2.X())], {size: 2, face: '[]', name: ''}); var y3 = board.create('point', [() => x3.X(), () => f(x3.X())], {size: 2, face: '[]', name: ' '}); // Vertical helper lines var v1 = board.create('segment', [x1, y1], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); var v2 = board.create('line', [x2, y2], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); var v3 = board.create('line', [x3, y3], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); // Horizontal helper lines (realized as curves) var h1 = board.create('curve', [(t) => t, (t) => y1.Y()], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); var h2 = board.create('curve', [(t) => t, (t) => y2.Y()], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); var h3 = board.create('curve', [(t) => t, (t) => y3.Y()], {strokeColor: 'gray', dash: 2, strokeWidth: 1}); // Determine minimum epsilon var txt = board.create('text', [4.2, -1.5, function() { return 'ε = ' + Math.max(Math.abs(y2.Y() - y1.Y()), Math.abs(y1.Y() - y3.Y())).toFixed(5); }], { strokeColor: 'blue' });
This example is licensed under a Creative Commons Attribution 4.0 International License. Please note you have to mention The Center of Mobile Learning with Digital Technology in the credits.