Convergence of sequence: Difference between revisions
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<p> | <p> | ||
nth-element of the sequence: <input type="text" id="input" value="1 / n"><br /> | nth-element of the sequence: <input type="text" id="input" value="1 / n"><br /> | ||
start at <input type="number" id="startval" value="1"> | start at <input type="number" id="startval" value="1" width="10"> | ||
<input type="button" value="start" onClick="start_approx()"> | <input type="button" value="start" onClick="start_approx()"> | ||
<input type="button" value="stop" onClick="clear_all()"> | <input type="button" value="stop" onClick="clear_all()"> |
Revision as of 17:41, 7 January 2019
Compute values of the sequence [math]\displaystyle{ (a_n)_{n\in{\mathbb N}} }[/math].
nth-element of the sequence:
start at
The underlying JavaScript code
var board = JXG.JSXGraph.initBoard('box', {axis:true, boundingbox: [-3, 8, 50, -8]});
var seq = board.create('curve', [[0], [1]], {strokeColor: 'blue'});
var seq_add = function() {
var n = seq.dataX.length,
val = a_n(n);
seq.dataX.push(n);
seq.dataY.push(val);
};
var txt1 = board.create('text', [15, 1.6, function() { return 'n=' + (seq.dataX.length-1) + ': value = ' + seq.dataY[seq.dataY.length - 1]; }], {strokeColor: 'blue'});
var TO;
var approx = function() {
seq_add();
board.update();
if (seq.dataX.length <= 50) {
TO = setTimeout(approx, 500);
}
};
var a_n;
var start_approx = function() {
var txtraw = document.getElementById('input').value;
a_n = board.jc.snippet(txtraw, true, 'n', true);
approx();
}
var clear_all = function() {
clearTimeout(TO);
seq.dataX = [0];
seq.dataY = [1];
};