/
var
/
www
/
html
/
cetesb
/
lib
/
dragmath
/
applet
/
formats
/
Upload File
HOME
<?xml version="1.0" encoding="UTF-8"?> <Syntax> <name AutoBrackets="false">ASCIIMathML</name> <Initial> <output1>`</output1> <output2>`</output2> </Initial> <Text> <output1></output1> <output2></output2> </Text> <Variable> <output1></output1> <output2></output2> </Variable> <RealNumber> <output1></output1> <output2></output2> </RealNumber> <!-- Nary Operators --> <Add> <output>+</output> </Add> <Multiply> <output> * </output> </Multiply> <Multiply2> <output> xx </output> </Multiply2> <Equals> <output>=</output> </Equals> <Union> <output> uu </output> </Union> <Intersection> <output> nn </output> </Intersection> <Comma> <output>,</output> </Comma> <Equiv> <output> -= </output> </Equiv> <!-- Functions --> <UMinus> <output1>-</output1> <output2></output2> </UMinus> <Factorial brackets="false"> <output1>(</output1> <output2>)!</output2> </Factorial> <NaturalLogarithm> <output1> ln </output1> <output2></output2> </NaturalLogarithm> <Logarithm> <output1> log </output1> <output2></output2> </Logarithm> <Sine> <output1> sin </output1> <output2></output2> </Sine> <Cosine> <output1> cos </output1> <output2></output2> </Cosine> <Tangent> <output1> tan </output1> <output2></output2> </Tangent> <ArcSine> <output1> sin^{-1} </output1> <output2></output2> </ArcSine> <ArcCosine> <output1> cos^{-1} </output1> <output2></output2> </ArcCosine> <ArcTangent> <output1> tan^{-1} </output1> <output2></output2> </ArcTangent> <SineH> <output1> sinh </output1> <output2></output2> </SineH> <CosineH> <output1> cosh </output1> <output2></output2> </CosineH> <TanH> <output1> tanh </output1> <output2></output2> </TanH> <ArcSineH> <output1> sinh^{-1} </output1> <output2></output2> </ArcSineH> <ArcCosineH> <output1> cosh^{-1} </output1> <output2></output2> </ArcCosineH> <ArcTanH> <output1> tanh^{-1} </output1> <output2></output2> </ArcTanH> <SquareRoot brackets="false"> <output1> sqrt{</output1> <output2>} </output2> </SquareRoot> <Exp brackets="false"> <output1> e^{</output1> <output2>} </output2> </Exp> <Max> <output1>max</output1> <output2></output2> </Max> <Min> <output1>min</output1> <output2></output2> </Min> <Determinant> <output1>det</output1> <output2></output2> </Determinant> <Trace> <output1>Tr</output1> <output2></output2> </Trace> <!-- Binary Operators --> <NotEqual> <output1></output1> <output2> != </output2> <output3></output3> </NotEqual> <PlusMinus> <output1></output1> <output2> +- </output2> <output3></output3> </PlusMinus> <Assignment> <output1></output1> <output2>:=</output2> <output3></output3> </Assignment> <Subtract> <output1></output1> <output2>-</output2> <output3></output3> </Subtract> <Divide brackets="false"> <output1> (</output1> <output2>)/(</output2> <output3>) </output3> </Divide> <Divide2> <output1></output1> <output2> -: </output2> <output3></output3> </Divide2> <LessThan> <output1></output1> <output2><![CDATA[<]]></output2> <output3></output3> </LessThan> <GreaterThan> <output1></output1> <output2>></output2> <output3></output3> </GreaterThan> <LTEQ> <output1></output1> <output2><![CDATA[<=]]></output2> <output3></output3> </LTEQ> <GTEQ> <output1></output1> <output2><![CDATA[>=]]></output2> <output3></output3> </GTEQ> <Subset> <output1></output1> <output2> sub </output2> <output3></output3> </Subset> <SubsetEq> <output1></output1> <output2> sube </output2> <output3></output3> </SubsetEq> <NSubset> <output1></output1> <output2> \not\subset </output2> <output3></output3> </NSubset> <NSubsetEq> <output1></output1> <output2> \not\subseteq </output2> <output3></output3> </NSubsetEq> <Power> <output1></output1> <output2>^{</output2> <output3>}</output3> </Power> <Subscript> <output1></output1> <output2>_{</output2> <output3>}</output3> </Subscript> <NthRoot reverse="true" brackets="false"> <output1> root(</output1> <output2>)(</output2> <output3>) </output3> </NthRoot> <Function> <output1></output1> <output2>(</output2> <output3>)</output3> </Function> <LeftArrow> <output1></output1> <output2> larr </output2> <output3></output3> </LeftArrow> <RightArrow> <output1></output1> <output2> rarr </output2> <output3></output3> </RightArrow> <UpArrow> <output1></output1> <output2> uarr </output2> <output3></output3> </UpArrow> <DownArrow> <output1></output1> <output2> darr </output2> <output3></output3> </DownArrow> <LeftDblArrow> <output1></output1> <output2> lArr </output2> <output3></output3> </LeftDblArrow> <RightDblArrow> <output1></output1> <output2> rArr </output2> <output3></output3> </RightDblArrow> <LeftRightArrow> <output1></output1> <output2> harr </output2> <output3></output3> </LeftRightArrow> <LeftRightDblArrow> <output1></output1> <output2> hArr </output2> <output3></output3> </LeftRightDblArrow> <NorthEastArrow> <output1></output1> <output2> \nearrow </output2> <output3></output3> </NorthEastArrow> <SouthEastArrow> <output1></output1> <output2> \searrow </output2> <output3></output3> </SouthEastArrow> <NorthWestArrow> <output1></output1> <output2> \nwarrow </output2> <output3></output3> </NorthWestArrow> <SouthWestArrow> <output1></output1> <output2> \swarrow </output2> <output3></output3> </SouthWestArrow> <Exists> <output1></output1> <output2> EE </output2> <output3></output3> </Exists> <ForAll> <output1></output1> <output2> AA </output2> <output3></output3> </ForAll> <IsIn> <output1></output1> <output2> in </output2> <output3></output3> </IsIn> <NotExists> <output1></output1> <output2> \not\exists </output2> <output3></output3> </NotExists> <NotIn> <output1></output1> <output2> !in </output2> <output3></output3> </NotIn> <SimEq> <output1></output1> <output2> \simeq </output2> <output3></output3> </SimEq> <Or> <output1></output1> <output2> vv </output2> <output3></output3> </Or> <And> <output1></output1> <output2> ^^ </output2> <output3></output3> </And> <Not> <output1></output1> <output2> not </output2> <output3></output3> </Not> <!-- Nary Functions --> <Integral> <output1> int </output1> <output2>d</output2> <output3></output3> </Integral> <Differential order="1,0"> <output1> d/(d</output1> <output2>)</output2> <output3></output3> </Differential> <PartialDifferential order="1,0"> <output1> del/(del </output1> <output2>)</output2> <output3></output3> </PartialDifferential> <Sum order="1,2,3,0"> <output1> sum_(</output1> <output2>=</output2> <output3>)^(</output3> <output4>)</output4> <output5></output5> </Sum> <Product order="1,2,3,0"> <output1> prod_(</output1> <output2>=</output2> <output3>)^(</output3> <output4>)</output4> <output5></output5> </Product> <Limit order="1,2,0"> <output1> lim_(</output1> <output2>-></output2> <output3>)</output3> <output4></output4> </Limit> <Evaluate> <output1></output1> <output2>\left|_{{</output2> <output3>}={</output3> <output4>}}</output4> </Evaluate> <DefiniteIntegral order="2,3,0,1"> <output1> int_{</output1> <output2>}^{</output2> <output3>}</output3> <output4>d</output4> <output5></output5> </DefiniteIntegral> <!-- Matrix --> <Matrix> <matrixStart> [ </matrixStart> <rowStart>[</rowStart> <elementStart></elementStart> <elementEnd></elementEnd> <elementSeparator>,</elementSeparator> <rowEnd>]</rowEnd> <rowSeparator>,</rowSeparator> <matrixEnd> ] </matrixEnd> </Matrix> <!-- Grouping --> <BracketsRnd> <output1>(</output1> <output2>)</output2> </BracketsRnd> <BracketsCurl> <output1>{</output1> <output2>}</output2> </BracketsCurl> <BracketsSq> <output1>[</output1> <output2>]</output2> </BracketsSq> <Abs> <output1>|\</output1> <output2>|</output2> </Abs> <!-- Symbols --> <Infinity> <output>oo</output> </Infinity> <Γ> <output> Gamma </output> </Γ> <Δ> <output> Delta </output> </Δ> <Θ> <output> Theta </output> </Θ> <Λ> <output> Lambda </output> </Λ> <Ξ> <output> Xi </output> </Ξ> <Π> <output> Pi </output> </Π> <Σ> <output> Sigma </output> </Σ> <Υ> <output> Upsilon </output> </Υ> <Φ> <output> Phi </output> </Φ> <Ψ> <output> Psi </output> </Ψ> <Ω> <output> Omega </output> </Ω> <α> <output> alpha </output> </α> <β> <output> beta </output> </β> <γ> <output> gamma </output> </γ> <δ> <output> delta </output> </δ> <ε> <output> epsilon </output> </ε> <ζ> <output> zeta </output> </ζ> <η> <output> eta </output> </η> <θ> <output> theta </output> </θ> <ι> <output> iota </output> </ι> <κ> <output> kappa </output> </κ> <λ> <output> lambda </output> </λ> <μ> <output> mu </output> </μ> <ν> <output> nu </output> </ν> <ξ> <output> xi </output> </ξ> <π> <output> pi </output> </π> <ρ> <output> rho </output> </ρ> <σ> <output> sigma </output> </σ> <τ> <output> tau </output> </τ> <υ> <output> upsilon </output> </υ> <φ> <output> phi </output> </φ> <χ> <output> chi </output> </χ> <ψ> <output> psi </output> </ψ> <ω> <output> omega </output> </ω> </Syntax>