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− | For | + | For exponents, you want to use the ^ symbol. So <math>A^x</math> would be written like this: <code>A^x</code>. If the exponent contains more than one character, you need to encase them in curly brackets {} so <math>A^{xyz}</math> would be written like <code>A^{xyz}</code>. |
For subscripts, you want to use the _ symbol. So <math>A_x</math> would be written like this: <code>A_x</code>. If the subscript contains more than one character, you need to encase them in curly brackets {} so <math>A_{xyz}</math> would be written like <code>A_{xyz}</code>. | For subscripts, you want to use the _ symbol. So <math>A_x</math> would be written like this: <code>A_x</code>. If the subscript contains more than one character, you need to encase them in curly brackets {} so <math>A_{xyz}</math> would be written like <code>A_{xyz}</code>. |
$$a^2+b^2=c^2$$
Math functions need to be within either math tags \(a^2+b^2=c^2\)
or double dollar signs $$a^2+b^2=c^2$$
. The difference being, the math tag can be used inline and the double dollar sign will put the equation on it's own line and centered on the page.
Example\[a^2+b^2=c^2\]
For exponents, you want to use the ^ symbol. So \(A^x\) would be written like this: A^x
. If the exponent contains more than one character, you need to encase them in curly brackets {} so \(A^{xyz}\) would be written like A^{xyz}
.
For subscripts, you want to use the _ symbol. So \(A_x\) would be written like this: A_x
. If the subscript contains more than one character, you need to encase them in curly brackets {} so \(A_{xyz}\) would be written like A_{xyz}
.
Operators work as expected, you can use + - * / within the math tags to add, subtract, multiply and divide. A+B*C/D
looks like \(A+B*C/D\)
Symbols such as \(\sqrt{}\) and \(\pi\) are written using LaTeX commands. The two used previously are \sqrt
and \pi
. A complete list of LaTeX symbols can be found here. So, for example if you typed this within math tags \sqrt[2]{144*2}
you would get this:\[\sqrt[2]{144*2}\]
$$\sum f(x) = F(x) + g(x)$$
$$\sqrt{12*32}$$
$$A^2 + B^2 = C^2$$
$$\left( \sum_{k=1}^n a_k b_k \right)^2 \leq \left( \sum_{k=1}^n a_k^2 \right) \left( \sum_{k=1}^n b_k^2 \right)$$
\(A_{sv} = (A_{sd} * Sn_w) - I_{vol}\)
Where: