MathJax HowTo
Table of contents
Combined revision comparison
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Equação em MathML (formato "mathmathjax.formula")
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{{ mathjaxmath.equation{equation: "\\begin{align}
\\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 \\\\
\\nabla \\times \\vec{\\mathbf{E}}\\, +\\, \\frac1c\\, \\frac{\\partial\\vec{\\mathbf{B}}}{\\partial t} & = \\vec{\\mathbf{0}} \\\\
\\nabla \\cdot \\vec{\\mathbf{B}} & = 0
\\end{align}"} }}
Version from 17:25, 8 Jan 2020
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Equação em MathML (formato "mathjax.formula")
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{{ math.equation{equation: "\\begin{align}
\\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 \\\\
\\nabla \\times \\vec{\\mathbf{E}}\\, +\\, \\frac1c\\, \\frac{\\partial\\vec{\\mathbf{B}}}{\\partial t} & = \\vec{\\mathbf{0}} \\\\
\\nabla \\cdot \\vec{\\mathbf{B}} & = 0
\\end{align}"} }}
Version as of 17:26, 8 Jan 2020
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Equação em MathML (formato "math.formula")
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{{ mathjax.equation{equation: "\\begin{align}
\\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 \\\\
\\nabla \\times \\vec{\\mathbf{E}}\\, +\\, \\frac1c\\, \\frac{\\partial\\vec{\\mathbf{B}}}{\\partial t} & = \\vec{\\mathbf{0}} \\\\
\\nabla \\cdot \\vec{\\mathbf{B}} & = 0
\\end{align}"} }}