Difference between revisions of "Comments:LaTeX-code for the most common formulas"

Revision as of 22:35, 24 March 2013

If you have somewhere a very long formula, please share it with us. This will save time for everybody! Just edit this page and paste you code at inside the input-box, if you don't know how to use the wiki-code correctly.

How to use the formulas

Just copy the text from the column LaTex Input into your text-object input-box. If the formula should be dynamic you need to insert the object instead of the variables that are used here.

Preivew

Check how they look in Java (http://www.geogebra.org/student/m33487?mobile=false) and HTML5 (http://www.geogebra.org/student/m33487?mobile=true)

Useful Formulas

es:Código_LaTeX_para_las_fórmulas_más_comunes it:Sintassi LaTeX per le formule di uso più comune

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 ==How to use the formulas==
 Just copy the text from the column '''LaTex Input''' into your text-object input-box. If the formula should be dynamic you need to insert the object instead of the variables that are used here.
+==Preivew==
+Check how they look in Java (http://www.geogebra.org/student/m33487?mobile=false) and HTML5 (http://www.geogebra.org/student/m33487?mobile=true)
 ==Useful Formulas==

Usage	LaTex Input	LaTex Output
Slope for a straight line	m=\frac{y_2-y_1}{x_2-x_1}	m=\frac{y_2-y_1}{x_2-x_1}
Slope for a straight line (2)	m= \frac{Δy}{Δx}=\frac{y_A-y_B}{x_A-x_B}	m= \frac{Δy}{Δx}=\frac{y_A-y_B}{x_A-x_B}
Compound Interest	Amount = Principal \cdot \left( 1 + \frac {rate}{periods} \right) ^ {time\; \cdot\; periods}	Amount = Principal \cdot \left( 1 + \frac {rate}{periods} \right) ^ {time\; \cdot\; periods}
Quadratic Equation	a x^2\; +\; b x\; +\; c\; =\; 0	a x^2\; +\; b x\; +\; c\; =\; 0
Simplified Quadratic Equation	x^2\; +\; p x\; +\; q\; =\; 0	x^2\; +\; p x\; +\; q\; =\; 0
Vertex Form	f(x)\; =\; a(x\; -\; h)^2\; +\; k	f(x)\; =\; a(x\; -\; h)^2\; +\; k
Factored Form	f(x)\; =\; (x\; +\; a)\;(x\; +\; b)	f(x)\; =\; (x\; +\; a)\;(x\; +\; b)
Quadratic Formula	x\; =\; \frac {-b\; \pm\; \sqrt {b^2\; -\; 4ac}}{2a}	x\; =\; \frac {-b\; \pm\; \sqrt {b^2\; -\; 4ac}}{2a}
Quadratic Formula	x_{1/2}\; =\; \frac {-b\; \pm\; \sqrt {b^2\; -\; 4ac}}{2a}	x_{1/2}\; =\; \frac {-b\; \pm\; \sqrt {b^2\; -\; 4ac}}{2a}
Quadratic Formula for Simplified Quadratic Equation	x_{1/2}\; =\; - \frac{p}{2}{\; \pm\; \sqrt {\left( \frac{p}{2} \right)^2\; -\; q}}	x_{1/2}\; =\; - \frac{p}{2}{\; \pm\; \sqrt {\left( \frac{p}{2} \right)^2\; -\; q}}
Quadratic Formula for Simplified Quadratic Equation	x_{1/2}\; =\; - \frac{p}{2}{\; \pm\; \sqrt {\left( \frac{p}{2} \right)^2\; -\; q}}	x_{1/2}\; =\; - \frac{p}{2}{\; \pm\; \sqrt { \frac{p^2}{4} \; -\; q}}
Cubic Equation	a x^3\; +\; b x^2\; +\; c x\; +\; d\; =\; 0	a x^3\; +\; b x^2\; +\; c x\; +\; d\; =\; 0
Basic Trigonometry Forms	\sin A = \frac {opp}{hyp} = \frac {a}{c} = (a/c)	\sin A = \frac {opp}{hyp} = \frac {a}{c} = (a/c)
	f(x)\; =\; a\; \sin\; b\;(x\; -\; h)\; +\; k	f(x)\; =\; a\; \sin\; b\;(x\; -\; h)\; +\; k
	f(x)\; =\; a\; sin\; (B x + C) + k	f(x)\; =\; a\; \sin\; (B x + C) + k
	b\;(x\; -\; h)\; = B\; \left( x\; -\; \frac {-C}{B} \right)	b\;(x\; -\; h)\; = B\; \left( x\; -\; \frac {-C}{B} \right)
	h\; = \frac {-C}{B}	h\; = \frac {-C}{B}
Limit (corrected to work in HTML5 as well as Java)	\lim_{x \to \infty} \left( \frac{1}{x} \right)	\lim_{x \to \infty} \left( \frac{1}{x} \right)