`\perp` left parenthesis, 1 , negative 0.5 , right parenthesis1,−0.5
Label:
122
⟂: paste \perp
123
`\mid` left parenthesis, 1.5 , negative 0.5 , right parenthesis1.5,−0.5
Label:
124
|: paste \mid
125
`\cdot` left parenthesis, 2 , negative 0.5 , right parenthesis2,−0.5
Label:
126
·: paste \cdot
127
`\infty` left parenthesis, 2.5 , negative 0.5 , right parenthesis2.5,−0.5
Label:
128
∞: type infty
129
`\digamma` left parenthesis, 6 , 0 , right parenthesis6,0
Label:
130
Ϝ: paste \digamma (this function makes it work)
131
Expression 132: digamma left parenthesis, "z" , right parenthesis equals StartFraction, "d" Over "d" "z" , EndFraction natural log left parenthesis, "z" ! , right parenthesisϝz=ddzlnz!
132
`\pm` left parenthesis, 3 , negative 0.5 , right parenthesis3,−0.5
Label:
133
±: paste \pm (this equation makes it work)
134
Expression 135: plus-or-minus equals left bracket, 1 , negative 1 , right bracket±=1,−1
135
Fraction: paste \frac{numerator}{denominator}
136
Nth Root: paste \sqrt[N]{number}
137
`x=\frac{-b\pm\sqrt{b^2-4ac}}{2a}` left parenthesis, 0 , negative 2 , right parenthesis0,−2
Label:
138
`\sqrt[3]{-\frac{q}{2}-\sqrt{(\frac{q}{2})^2+(\frac{p}{3})^3}}+\sqrt[3]{-\frac{q}{2}+\sqrt{(\frac{q}{2})^2+(\frac{p}{3})^3}}` left parenthesis, 0 , negative 4 , right parenthesis0,−4
Label:
139
140
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plus-or-minus±
"x" equals StartFraction, negative "b" plus-or-minus StartRoot, "b" squared minus 4 "a" "c" , EndRoot Over 2 "a" , EndFractionx=−b±b2−4ac2a
Start Cube Root, negative StartFraction, "q" Over 2 , EndFraction minus StartRoot, ( StartFraction, "q" Over 2 , EndFraction ) squared plus ( StartFraction, "p" Over 3 , EndFraction ) cubed , EndRoot , End Cube Root plus Start Cube Root, negative StartFraction, "q" Over 2 , EndFraction plus StartRoot, ( StartFraction, "q" Over 2 , EndFraction ) squared plus ( StartFraction, "p" Over 3 , EndFraction ) cubed , EndRoot , End Cube Root3−q2−(q2)2+(p3)3+3−q2+(q2)2+(p3)3
