Typesetting Equations.ipynb
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TextLexer
Aron Ahmadia
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r8567 | { | ||
Min RK
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r18669 | "cells": [ | ||
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Aron Ahmadia
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r8567 | { | ||
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Min RK
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r18669 | "cell_type": "markdown", | ||
| "metadata": {}, | ||||
| "source": [ | ||||
| "The Markdown parser included in IPython is MathJax-aware. This means that you can freely mix in mathematical expressions using the [MathJax subset of Tex and LaTeX](http://docs.mathjax.org/en/latest/tex.html#tex-support). [Some examples from the MathJax site](http://www.mathjax.org/demos/tex-samples/) are reproduced below, as well as the Markdown+TeX source." | ||||
| ] | ||||
| }, | ||||
| { | ||||
| "cell_type": "markdown", | ||||
| "metadata": {}, | ||||
| "source": [ | ||||
| "# Motivating Examples\n", | ||||
| "\n", | ||||
| "---\n", | ||||
| "\n", | ||||
| "## The Lorenz Equations\n", | ||||
| "### Source\n", | ||||
| "```\\begin{align}\n", | ||||
| "\\dot{x} & = \\sigma(y-x) \\\\\n", | ||||
| "\\dot{y} & = \\rho x - y - xz \\\\\n", | ||||
| "\\dot{z} & = -\\beta z + xy\n", | ||||
| "\\end{align}\n", | ||||
| "```\n", | ||||
| "### Display\n", | ||||
| "\\begin{align}\n", | ||||
| "\\dot{x} & = \\sigma(y-x) \\\\\n", | ||||
| "\\dot{y} & = \\rho x - y - xz \\\\\n", | ||||
| "\\dot{z} & = -\\beta z + xy\n", | ||||
| "\\end{align}" | ||||
| ] | ||||
| }, | ||||
| { | ||||
| "cell_type": "markdown", | ||||
| "metadata": {}, | ||||
| "source": [ | ||||
| "## The Cauchy-Schwarz Inequality\n", | ||||
| "### Source\n", | ||||
| "```\\begin{equation*}\n", | ||||
| "\\left( \\sum_{k=1}^n a_k b_k \\right)^2 \\leq \\left( \\sum_{k=1}^n a_k^2 \\right) \\left( \\sum_{k=1}^n b_k^2 \\right)\n", | ||||
| "\\end{equation*}\n", | ||||
| "```\n", | ||||
| "### Display\n", | ||||
| "\\begin{equation*}\n", | ||||
| "\\left( \\sum_{k=1}^n a_k b_k \\right)^2 \\leq \\left( \\sum_{k=1}^n a_k^2 \\right) \\left( \\sum_{k=1}^n b_k^2 \\right)\n", | ||||
| "\\end{equation*}" | ||||
| ] | ||||
| }, | ||||
| { | ||||
| "cell_type": "markdown", | ||||
| "metadata": {}, | ||||
| "source": [ | ||||
| "## A Cross Product Formula\n", | ||||
| "### Source\n", | ||||
| "```\\begin{equation*}\n", | ||||
| "\\mathbf{V}_1 \\times \\mathbf{V}_2 = \\begin{vmatrix}\n", | ||||
| "\\mathbf{i} & \\mathbf{j} & \\mathbf{k} \\\\\n", | ||||
| "\\frac{\\partial X}{\\partial u} & \\frac{\\partial Y}{\\partial u} & 0 \\\\\n", | ||||
| "\\frac{\\partial X}{\\partial v} & \\frac{\\partial Y}{\\partial v} & 0\n", | ||||
| "\\end{vmatrix} \n", | ||||
| "\\end{equation*}\n", | ||||
| "```\n", | ||||
| "### Display\n", | ||||
| "\\begin{equation*}\n", | ||||
| "\\mathbf{V}_1 \\times \\mathbf{V}_2 = \\begin{vmatrix}\n", | ||||
| "\\mathbf{i} & \\mathbf{j} & \\mathbf{k} \\\\\n", | ||||
| "\\frac{\\partial X}{\\partial u} & \\frac{\\partial Y}{\\partial u} & 0 \\\\\n", | ||||
| "\\frac{\\partial X}{\\partial v} & \\frac{\\partial Y}{\\partial v} & 0\n", | ||||
| "\\end{vmatrix} \n", | ||||
| "\\end{equation*}" | ||||
| ] | ||||
| }, | ||||
| { | ||||
| "cell_type": "markdown", | ||||
| "metadata": {}, | ||||
| "source": [ | ||||
| "## The probability of getting \\(k\\) heads when flipping \\(n\\) coins is\n", | ||||
| "### Source\n", | ||||
| "```\\begin{equation*}\n", | ||||
| "P(E) = {n \\choose k} p^k (1-p)^{ n-k} \n", | ||||
| "\\end{equation*}\n", | ||||
| "```\n", | ||||
| "### Display\n", | ||||
| "\\begin{equation*}\n", | ||||
| "P(E) = {n \\choose k} p^k (1-p)^{ n-k} \n", | ||||
| "\\end{equation*}" | ||||
| ] | ||||
| }, | ||||
| { | ||||
| "cell_type": "markdown", | ||||
| "metadata": {}, | ||||
| "source": [ | ||||
| "## An Identity of Ramanujan\n", | ||||
| "### Source\n", | ||||
| "```\\begin{equation*}\n", | ||||
| "\\frac{1}{\\Bigl(\\sqrt{\\phi \\sqrt{5}}-\\phi\\Bigr) e^{\\frac25 \\pi}} =\n", | ||||
| "1+\\frac{e^{-2\\pi}} {1+\\frac{e^{-4\\pi}} {1+\\frac{e^{-6\\pi}}\n", | ||||
| "{1+\\frac{e^{-8\\pi}} {1+\\ldots} } } } \n", | ||||
| "\\end{equation*}\n", | ||||
| "```\n", | ||||
| "### Display\n", | ||||
| "\\begin{equation*}\n", | ||||
| "\\frac{1}{\\Bigl(\\sqrt{\\phi \\sqrt{5}}-\\phi\\Bigr) e^{\\frac25 \\pi}} =\n", | ||||
| "1+\\frac{e^{-2\\pi}} {1+\\frac{e^{-4\\pi}} {1+\\frac{e^{-6\\pi}}\n", | ||||
| "{1+\\frac{e^{-8\\pi}} {1+\\ldots} } } } \n", | ||||
| "\\end{equation*}" | ||||
| ] | ||||
| }, | ||||
| { | ||||
| "cell_type": "markdown", | ||||
| "metadata": {}, | ||||
| "source": [ | ||||
| "## A Rogers-Ramanujan Identity\n", | ||||
| "### Source\n", | ||||
| "```\\begin{equation*}\n", | ||||
| "1 + \\frac{q^2}{(1-q)}+\\frac{q^6}{(1-q)(1-q^2)}+\\cdots =\n", | ||||
| "\\prod_{j=0}^{\\infty}\\frac{1}{(1-q^{5j+2})(1-q^{5j+3})},\n", | ||||
| "\\quad\\quad \\text{for $|q|<1$}. \n", | ||||
| "\\end{equation*}\n", | ||||
| "```\n", | ||||
| "### Display\n", | ||||
| "\\begin{equation*}\n", | ||||
| "1 + \\frac{q^2}{(1-q)}+\\frac{q^6}{(1-q)(1-q^2)}+\\cdots =\n", | ||||
| "\\prod_{j=0}^{\\infty}\\frac{1}{(1-q^{5j+2})(1-q^{5j+3})},\n", | ||||
| "\\quad\\quad \\text{for $|q|<1$}. \n", | ||||
| "\\end{equation*}" | ||||
| ] | ||||
| }, | ||||
| { | ||||
| "cell_type": "markdown", | ||||
| "metadata": {}, | ||||
| "source": [ | ||||
| "## Maxwell's Equations\n", | ||||
| "### Source\n", | ||||
| "```\\begin{align}\n", | ||||
| "\\nabla \\times \\vec{\\mathbf{B}} -\\, \\frac1c\\, \\frac{\\partial\\vec{\\mathbf{E}}}{\\partial t} & = \\frac{4\\pi}{c}\\vec{\\mathbf{j}} \\\\ \\nabla \\cdot \\vec{\\mathbf{E}} & = 4 \\pi \\rho \\\\\n", | ||||
| "\\nabla \\times \\vec{\\mathbf{E}}\\, +\\, \\frac1c\\, \\frac{\\partial\\vec{\\mathbf{B}}}{\\partial t} & = \\vec{\\mathbf{0}} \\\\\n", | ||||
| "\\nabla \\cdot \\vec{\\mathbf{B}} & = 0 \n", | ||||
| "\\end{align}\n", | ||||
| "```\n", | ||||
| "### Display\n", | ||||
| "\\begin{align}\n", | ||||
| "\\nabla \\times \\vec{\\mathbf{B}} -\\, \\frac1c\\, \\frac{\\partial\\vec{\\mathbf{E}}}{\\partial t} & = \\frac{4\\pi}{c}\\vec{\\mathbf{j}} \\\\ \\nabla \\cdot \\vec{\\mathbf{E}} & = 4 \\pi \\rho \\\\\n", | ||||
| "\\nabla \\times \\vec{\\mathbf{E}}\\, +\\, \\frac1c\\, \\frac{\\partial\\vec{\\mathbf{B}}}{\\partial t} & = \\vec{\\mathbf{0}} \\\\\n", | ||||
| "\\nabla \\cdot \\vec{\\mathbf{B}} & = 0 \n", | ||||
| "\\end{align}" | ||||
| ] | ||||
| }, | ||||
| { | ||||
| "cell_type": "markdown", | ||||
| "metadata": {}, | ||||
| "source": [ | ||||
| "# Equation Numbering and References\n", | ||||
| "\n", | ||||
| "---\n", | ||||
| "\n", | ||||
| "Equation numbering and referencing will be available in a future version of IPython." | ||||
| ] | ||||
| }, | ||||
| { | ||||
| "cell_type": "markdown", | ||||
| "metadata": {}, | ||||
| "source": [ | ||||
| "# Inline Typesetting (Mixing Markdown and TeX)\n", | ||||
| "\n", | ||||
| "---\n", | ||||
| "\n", | ||||
| "While display equations look good for a page of samples, the ability to mix math and *formatted* **text** in a paragraph is also important.\n", | ||||
| "\n", | ||||
| "## Source\n", | ||||
| "``` This expression $\\sqrt{3x-1}+(1+x)^2$ is an example of a TeX inline equation in a **[Markdown-formatted](http://daringfireball.net/projects/markdown/)** sentence. \n", | ||||
| "```\n", | ||||
| "## Display\n", | ||||
| "This expression $\\sqrt{3x-1}+(1+x)^2$ is an example of a TeX inline equation in a **[Markdown-formatted](http://daringfireball.net/projects/markdown/)** sentence. " | ||||
| ] | ||||
| }, | ||||
| { | ||||
| "cell_type": "markdown", | ||||
| "metadata": {}, | ||||
| "source": [ | ||||
| "# Other Syntax\n", | ||||
| "\n", | ||||
| "---\n", | ||||
| "\n", | ||||
| "You will notice in other places on the web that `$$` are needed explicitly to begin and end MathJax typesetting. This is **not** required if you will be using TeX environments, but the IPython notebook will accept this syntax on legacy notebooks. \n", | ||||
| "\n", | ||||
| "### Source\n", | ||||
| "```\n", | ||||
| "$$\n", | ||||
| "\\begin{array}{c}\n", | ||||
| "y_1 \\\\\\\n", | ||||
| "y_2 \\mathtt{t}_i \\\\\\\n", | ||||
| "z_{3,4}\n", | ||||
| "\\end{array}\n", | ||||
| "$$\n", | ||||
| "```\n", | ||||
| "\n", | ||||
| "```\n", | ||||
| "$$\n", | ||||
| "\\begin{array}{c}\n", | ||||
| "y_1 \\cr\n", | ||||
| "y_2 \\mathtt{t}_i \\cr\n", | ||||
| "y_{3}\n", | ||||
| "\\end{array}\n", | ||||
| "$$\n", | ||||
| "```\n", | ||||
| "\n", | ||||
| "```\n", | ||||
| "$$\\begin{eqnarray} \n", | ||||
| "x' &=& &x \\sin\\phi &+& z \\cos\\phi \\\\\n", | ||||
| "z' &=& - &x \\cos\\phi &+& z \\sin\\phi \\\\\n", | ||||
| "\\end{eqnarray}$$\n", | ||||
| "```\n", | ||||
| "\n", | ||||
| "```\n", | ||||
| "$$\n", | ||||
| "x=4\n", | ||||
| "$$\n", | ||||
| "```\n", | ||||
| "\n", | ||||
| "### Display\n", | ||||
| "$$\n", | ||||
| "\\begin{array}{c}\n", | ||||
| "y_1 \\\\\\\n", | ||||
| "y_2 \\mathtt{t}_i \\\\\\\n", | ||||
| "z_{3,4}\n", | ||||
| "\\end{array}\n", | ||||
| "$$\n", | ||||
| "\n", | ||||
| "$$\n", | ||||
| "\\begin{array}{c}\n", | ||||
| "y_1 \\cr\n", | ||||
| "y_2 \\mathtt{t}_i \\cr\n", | ||||
| "y_{3}\n", | ||||
| "\\end{array}\n", | ||||
| "$$\n", | ||||
| "\n", | ||||
| "$$\\begin{eqnarray} \n", | ||||
| "x' &=& &x \\sin\\phi &+& z \\cos\\phi \\\\\n", | ||||
| "z' &=& - &x \\cos\\phi &+& z \\sin\\phi \\\\\n", | ||||
| "\\end{eqnarray}$$\n", | ||||
| "\n", | ||||
| "$$\n", | ||||
| "x=4\n", | ||||
| "$$" | ||||
| ] | ||||
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Aron Ahmadia
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r8567 | } | ||
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Min RK
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r18669 | ], | ||
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Min RK
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r20278 | "metadata": { | ||
| "kernelspec": { | ||||
| "display_name": "Python 3", | ||||
| "language": "python", | ||||
| "name": "python3" | ||||
| }, | ||||
| "language_info": { | ||||
| "codemirror_mode": { | ||||
| "name": "ipython", | ||||
| "version": 3 | ||||
| }, | ||||
| "file_extension": ".py", | ||||
| "mimetype": "text/x-python", | ||||
| "name": "python", | ||||
| "nbconvert_exporter": "python", | ||||
| "pygments_lexer": "ipython3", | ||||
Jonathan Frederic
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r20536 | "version": "3.4.3" | ||
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Min RK
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r20278 | } | ||
| }, | ||||
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Min RK
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r18669 | "nbformat": 4, | ||
| "nbformat_minor": 0 | ||||
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Min RK
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r20278 | } | ||