Jupyter Markdown Latex



מבואמחברת Jupyter היא כיום ככל הנראה הסביבה הנפוצה ביותר לפתרון משימות למידת מכונה / מדע נתונים בפייתון. Jupyter Notebook הוא יישום שרת לקוח המשמש להפעלת מסמכי מחברת בדפדפן. מסמכי מחברת הם מסמכים. Datalore is an online data science notebook with smart coding assistance. Work with familiar Jupyter Notebooks and express your thoughts with Markdown and LaTex. Start your Python Data Science.

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LaTeX is a typesetting language for producing scientific documents. We introduce a very small part of the language for writing mathematical notation. Jupyter notebook recognizes LaTeX code written in markdown cells and renders the symbols in the browser using the MathJax JavaScript library.

Mathematics Inline and Display

Jupyter Markdown Latex

Enclose LaTeX code in dollar signs $ .. $ to display math inline. For example, the code $int_a^b f(x) = F(b) - F(a)$ renders inline as $ int_a^b f(x) dx = F(b) - F(a) $.

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Enclose LaTeX code in double dollar signs $$ .. $$ to display expressions in a centered paragraph. For example:

renders as

$$f'(a) = lim_{x to a} frac{f(x) - f(a)}{x-a}$$

See the LaTeX WikiBook for more information (especially the section on mathematics).

Common Symbols

Below we give a partial list of commonly used mathematical symbols. Most other symbols can be inferred from these examples. See the LaTeX WikiBook (Mathematics) and the Detexify App to find any symbol you can think of!

SyntaxOutput
$x_n$$x_n$
$x^2$$x^2$
$infty$$infty$
$frac{a}{b}$$frac{a}{b}$
$partial$$partial$
$alpha$$alpha$
$beta$$beta$
$gamma$$gamma$
$Gamma$$Gamma$
$Delta$$Delta$
$sin$$sin$
$cos$$cos$
$tan$$tan$
$sum_{n=0}^{infty}$$sum_{n=0}^{infty}$
$prod_{n=0}^{infty}$$prod_{n=0}^{infty}$
$int_a^b$$int_a^b$
$lim_{x to a}$$lim_{x to a}$
$mathrm{Hom}$$mathrm{Hom}$
$mathbf{v}$$mathbf{v}$
$mathbb{Z}$$mathbb{Z}$
$mathscr{L}$$mathscr{L}$
$mathfrak{g}$$mathfrak{g}$
$dots$$dots$
$vdots$$vdots$
$ddots$$ddots$

Matrices and Brackets

Create a matrix without brackets:

$$begin{matrix} a & b c & d end{matrix}$$

Create a matrix with round brackets:

$$begin{pmatrix} a & b c & d end{pmatrix}$$

Create a matrix with square brackets:

$$begin{bmatrix}1 & 2 & 1 3 & 0 & 1 0 & 2 & 4end{bmatrix}$$

Use left and right to enclose an arbitrary expression in brackets:

Latex

$$left( frac{p}{q} right)$$

Examples

Jupyter

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Derivative

The derivative $f'(a)$ of the function $f(x)$ at the point $x=a$ is the limit

$$f'(a) = lim_{x to a} frac{f(x) - f(a)}{x - a}$$

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Latex

Continuity

A function $f(x)$ is continuous at a point $x=a$ if

$$lim_{x to a^-} f(x) = f(a) = lim_{x to a^+} f(x)$$

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MacLaurin Series

Jupyter Notebook Markdown

The MacLaurin series for $e^x$ is

$$e^x = sum_{k=0}^{infty} frac{x^k}{k!}$$

Jacobian Matrix

The Jacobian matrix of the function $mathbf{f}(x_1, dots, x_n)$ is

$$mathbf{J} = frac{d mathbf{f}}{d mathbf{x}} =left[ frac{partial mathbf{f}}{partial x_1}cdots frac{partial mathbf{f}}{partial x_n} right] =begin{bmatrix}frac{partial f_1}{partial x_1} & cdots & frac{partial f_1}{partial x_n} vdots & ddots & vdots frac{partial f_m}{partial x_1} & cdots & frac{partial f_m}{partial x_n}end{bmatrix}$$

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Exercises

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  1. Write LaTeX code to display the angle sum identity Vpn free for macbook.

    $$cos(alpha pm beta) = cos alpha cos beta mp sin alpha sin beta$$

  2. Write LaTeX code to display the indefinite integral

    $$int frac{1}{1 + x^2} , dx = arctan x + C$$

  3. Write LaTeX code to display the Navier-Stokes Equation for Incompressible Flow

    Shop apps. $$frac{partial mathbf{u}}{partial t} + (mathbf{u} cdot nabla) mathbf{u} - nu nabla^2 mathbf{u} = - nabla w + mathbf{g}$$

  4. Write LaTeX code to display Green's Theorem

    $$oint_C (L dx + M dy) = iint_D left( frac{partial M}{partial x} - frac{partial L}{partial y} right) dx , dy$$

  5. Best free website software mac. Write LaTeX code to display the Prime Number Theorem

    $$lim_{x to infty} frac{pi(x)}{ frac{x}{log(x)}} = 1$$

  6. Write LaTeX code to display the general formula for Taylor series

    $$sum_{n=0}^{infty} frac{f^{(n)}(a)}{n!} (x-a)^n$$

  7. Write LaTeX code to display Stokes' Theorem

    $$int_{partial Omega} omega = int_{Omega} d omega$$

  8. Write LaTeX code to display the adjoint property of the tensor product

    $$mathrm{Hom}(U otimes V,W) cong mathrm{Hom}(U, mathrm{Hom}(V,W))$$

  9. Write LaTeX code to display the definition of the Laplace transform

    $$mathscr{L} { f(t) } = F(s) = int_0^{infty} f(t) e^{-st} dt$$

  10. Write LaTeX code to display the inverse matrix formula

    $$begin{bmatrix} a & b c & d end{bmatrix}^{-1} = frac{1}{ad - bc} begin{bmatrix} d & -b -c & a end{bmatrix}$$

  11. Write LaTeX code to display the infinite product formula

    $$sin x = x prod_{n=1}^{infty} left( 1 - frac{x^2}{pi^2 n^2} right)$$

  12. Pick your favourite math course and write the notes from your last class in LaTeX.





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