##// END OF EJS Templates
add '/' separator to keys in SSH engine dict...
add '/' separator to keys in SSH engine dict to prevent confusing with number-ending nodenames in log output.

File last commit:

r4777:15670ecb
r5181:79a50b94
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trapezoid_rule.ipynb
77 lines | 21.6 KiB | text/plain | TextLexer
Fernando Perez
Add example notebooks about display protocol and simple math/plots.
r4776 {
"worksheets": [
{
"cells": [
{
"source": "Basic numerical integration: the trapezoid rule\n===============================================\n\nA simple illustration of the trapezoid rule for definite integration:\n\n$$\n\\int_{a}^{b} f(x)\\, dx \\approx \\frac{1}{2} \\sum_{k=1}^{N} \\left( x_{k} - x_{k-1} \\right) \\left( f(x_{k}) + f(x_{k-1}) \\right).\n$$\n<br>\nFirst, we define a simple function and sample it between 0 and 10 at 200 points",
"cell_type": "markdown"
},
{
"cell_type": "code",
"language": "python",
"outputs": [],
"collapsed": true,
"prompt_number": 1,
"input": "def f(x):\n return (x-3)*(x-5)*(x-7)+85\n\nx = linspace(0, 10, 200)\ny = f(x)"
},
{
"source": "Choose a region to integrate over and take only a few points in that region",
"cell_type": "markdown"
},
{
"cell_type": "code",
"language": "python",
"outputs": [],
"collapsed": true,
"prompt_number": 2,
"input": "a, b = 1, 9\nxint = x[logical_and(x>=a, x<=b)][::30]\nyint = y[logical_and(x>=a, x<=b)][::30]"
},
{
"source": "Plot both the function and the area below it in the trapezoid approximation",
"cell_type": "markdown"
},
{
"cell_type": "code",
"language": "python",
"outputs": [
{
"output_type": "display_data",
"png": 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Nhg0bMDMzo2/fvuoWKkQHVlVVxS+//MKCBQvULuWONDc79eqW8fT0xNnZmcTE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\nXQgh2qH/B7d8dxd+Imh6AAAAAElFTkSuQmCC\n"
}
],
"collapsed": false,
"prompt_number": 3,
"input": "plot(x, y, lw=2)\naxis([0, 10, 0, 140])\nfill_between(xint, 0, yint, facecolor='gray', alpha=0.4)\ntext(0.5 * (a + b), 30,r\"$\\int_a^b f(x)dx$\", horizontalalignment='center', fontsize=20);"
},
{
"source": "Compute the integral both at high accuracy and with the trapezoid approximation",
"cell_type": "markdown"
},
{
"cell_type": "code",
"language": "python",
"outputs": [
{
"output_type": "stream",
Fernando Perez
Fix small typo - thanks to J. Grout for the notice
r4777 "text": "The integral is: 680.0 +/- 7.54951656745e-12\nThe trapezoid approximation with 6 points is: 621.286411141"
Fernando Perez
Add example notebooks about display protocol and simple math/plots.
r4776 }
],
"collapsed": false,
"prompt_number": 4,
Fernando Perez
Fix small typo - thanks to J. Grout for the notice
r4777 "input": "from scipy.integrate import quad, trapz\nintegral, error = quad(f, 1, 9)\nprint \"The integral is:\", integral, \"+/-\", error\nprint \"The trapezoid approximation with\", len(xint), \"points is:\", trapz(yint, xint)"
Fernando Perez
Add example notebooks about display protocol and simple math/plots.
r4776 },
{
"input": "",
"cell_type": "code",
"collapsed": true,
"language": "python",
"outputs": []
}
]
}
],
"metadata": {
Fernando Perez
Fix small typo - thanks to J. Grout for the notice
r4777 "name": "trapezoid_rule"
Fernando Perez
Add example notebooks about display protocol and simple math/plots.
r4776 },
"nbformat": 2
Fernando Perez
Fix small typo - thanks to J. Grout for the notice
r4777 }