Results of Bernoulli and Euler Polynomials

DLMF	Formula	Maple	Mathematica	Symbolic Maple	Symbolic Mathematica	Numeric Maple	Numeric Mathematica
24.2.E1	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \frac{t}{e^{t}-1} = \sum_{n=0}^{\infty}\BernoullinumberB{n}\frac{t^{n}}{n!}}	`(t)/(exp(t)- 1)= sum(bernoulli(n)*((t)^(n))/(factorial(n)), n = 0..infinity)`	`Divide[t,Exp[t]- 1]= Sum[BernoulliB[n]*Divide[(t)^(n),(n)!], {n, 0, Infinity}]`	Failure	Successful	Skip	-
24.2#Ex1	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullinumberB{2n+1} = 0}	`bernoulli(2*n + 1)= 0`	`BernoulliB[2*n + 1]= 0`	Failure	Failure	Successful	Fail `Complex[1.4142135623730951, 1.4142135623730951] <- {Rule[BernoulliB[Plus[1, Times[2, n]]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]]}` `Complex[1.4142135623730951, -1.4142135623730951] <- {Rule[BernoulliB[Plus[1, Times[2, n]]], Times[Complex[1, -1], Power[2, Rational[1, 2]]]]}` `Complex[-1.4142135623730951, -1.4142135623730951] <- {Rule[BernoulliB[Plus[1, Times[2, n]]], Times[Complex[-1, -1], Power[2, Rational[1, 2]]]]}` `Complex[-1.4142135623730951, 1.4142135623730951] <- {Rule[BernoulliB[Plus[1, Times[2, n]]], Times[Complex[-1, 1], Power[2, Rational[1, 2]]]]}`
24.2#Ex2	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle (-1)^{n+1}\BernoullinumberB{2n} > 0}	`(- 1)^(n + 1)* bernoulli(2*n)> 0`	`(- 1)^(n + 1)* BernoulliB[2*n]> 0`	Failure	Failure	Successful	Successful
24.2.E3	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \frac{te^{xt}}{e^{t}-1} = \sum_{n=0}^{\infty}\BernoullipolyB{n}@{x}\frac{t^{n}}{n!}}	`(texp(xt))/(exp(t)- 1)= sum(bernoulli(n, x)*((t)^(n))/(factorial(n)), n = 0..infinity)`	`Divide[tExp[xt],Exp[t]- 1]= Sum[BernoulliB[n, x]*Divide[(t)^(n),(n)!], {n, 0, Infinity}]`	Failure	Successful	Skip	-
24.2.E4	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullinumberB{n} = \BernoullipolyB{n}@{0}}	`bernoulli(n)= bernoulli(n, 0)`	`BernoulliB[n]= BernoulliB[n, 0]`	Successful	Successful	-	-
24.2.E6	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \frac{2e^{t}}{e^{2t}+1} = \sum_{n=0}^{\infty}\EulernumberE{n}\frac{t^{n}}{n!}}	`Error`	`Divide[2Exp[t],Exp[2t]+ 1]= Sum[EulerE[n]*Divide[(t)^(n),(n)!], {n, 0, Infinity}]`	Error	Successful	-	-
24.2#Ex3	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \EulernumberE{2n+1} = 0}	`Error`	`EulerE[2*n + 1]= 0`	Error	Failure	-	Fail `Complex[1.4142135623730951, 1.4142135623730951] <- {Rule[EulerE[Plus[1, Times[2, n]]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]]}` `Complex[1.4142135623730951, -1.4142135623730951] <- {Rule[EulerE[Plus[1, Times[2, n]]], Times[Complex[1, -1], Power[2, Rational[1, 2]]]]}` `Complex[-1.4142135623730951, -1.4142135623730951] <- {Rule[EulerE[Plus[1, Times[2, n]]], Times[Complex[-1, -1], Power[2, Rational[1, 2]]]]}` `Complex[-1.4142135623730951, 1.4142135623730951] <- {Rule[EulerE[Plus[1, Times[2, n]]], Times[Complex[-1, 1], Power[2, Rational[1, 2]]]]}`
24.2#Ex4	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle (-1)^{n}\EulernumberE{2n} > 0}	`Error`	`(- 1)^(n)* EulerE[2*n]> 0`	Error	Failure	-	Successful
24.2.E8	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \frac{2e^{xt}}{e^{t}+1} = \sum_{n=0}^{\infty}\EulerpolyE{n}@{x}\frac{t^{n}}{n!}}	`(2exp(xt))/(exp(t)+ 1)= sum(euler(n, x)*((t)^(n))/(factorial(n)), n = 0..infinity)`	`Divide[2Exp[xt],Exp[t]+ 1]= Sum[EulerE[n, x]*Divide[(t)^(n),(n)!], {n, 0, Infinity}]`	Failure	Successful	Skip	-
24.2.E9	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \EulernumberE{n} = 2^{n}\EulerpolyE{n}@{\tfrac{1}{2}}}	`Error`	`EulerE[n]= (2)^(n)* EulerE[n, Divide[1,2]]`	Error	Successful	-	-
24.4.E1	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullipolyB{n}@{x+1}-\BernoullipolyB{n}@{x} = nx^{n-1}}	`bernoulli(n, x + 1)- bernoulli(n, x)= n*(x)^(n - 1)`	`BernoulliB[n, x + 1]- BernoulliB[n, x]= n*(x)^(n - 1)`	Successful	Successful	-	-
24.4.E2	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \EulerpolyE{n}@{x+1}+\EulerpolyE{n}@{x} = 2x^{n}}	`euler(n, x + 1)+ euler(n, x)= 2*(x)^(n)`	`EulerE[n, x + 1]+ EulerE[n, x]= 2*(x)^(n)`	Successful	Successful	-	-
24.4.E3	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullipolyB{n}@{1-x} = (-1)^{n}\BernoullipolyB{n}@{x}}	`bernoulli(n, 1 - x)=(- 1)^(n)* bernoulli(n, x)`	`BernoulliB[n, 1 - x]=(- 1)^(n)* BernoulliB[n, x]`	Successful	Failure	-	Successful
24.4.E4	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \EulerpolyE{n}@{1-x} = (-1)^{n}\EulerpolyE{n}@{x}}	`euler(n, 1 - x)=(- 1)^(n)* euler(n, x)`	`EulerE[n, 1 - x]=(- 1)^(n)* EulerE[n, x]`	Successful	Failure	-	Successful
24.4.E5	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle (-1)^{n}\BernoullipolyB{n}@{-x} = \BernoullipolyB{n}@{x}+nx^{n-1}}	`(- 1)^(n)* bernoulli(n, - x)= bernoulli(n, x)+ n*(x)^(n - 1)`	`(- 1)^(n)* BernoulliB[n, - x]= BernoulliB[n, x]+ n*(x)^(n - 1)`	Failure	Failure	Successful	Successful
24.4.E6	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle (-1)^{n+1}\EulerpolyE{n}@{-x} = \EulerpolyE{n}@{x}-2x^{n}}	`(- 1)^(n + 1)* euler(n, - x)= euler(n, x)- 2*(x)^(n)`	`(- 1)^(n + 1)* EulerE[n, - x]= EulerE[n, x]- 2*(x)^(n)`	Failure	Failure	Successful	Successful
24.4.E7	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \sum_{k=1}^{m}k^{n} = \frac{\BernoullipolyB{n+1}@{m+1}-\BernoullinumberB{n+1}}{n+1}}	`sum((k)^(n), k = 1..m)=(bernoulli(n + 1, m + 1)- bernoulli(n + 1))/(n + 1)`	`Sum[(k)^(n), {k, 1, m}]=Divide[BernoulliB[n + 1, m + 1]- BernoulliB[n + 1],n + 1]`	Failure	Failure	Skip	Successful
24.4.E8	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \sum_{k=1}^{m}(-1)^{m-k}k^{n} = \frac{\EulerpolyE{n}@{m+1}+(-1)^{m}\EulerpolyE{n}@{0}}{2}}	`sum((- 1)^(m - k)* (k)^(n), k = 1..m)=(euler(n, m + 1)+(- 1)^(m)* euler(n, 0))/(2)`	`Sum[(- 1)^(m - k)* (k)^(n), {k, 1, m}]=Divide[EulerE[n, m + 1]+(- 1)^(m)* EulerE[n, 0],2]`	Failure	Failure	Skip	Successful
24.4.E9	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \sum_{k=0}^{m-1}(a+dk)^{n} = {\frac{d^{n}}{n+1}\left(\BernoullipolyB{n+1}@{m+\frac{a}{d}}-\BernoullipolyB{n+1}@{\frac{a}{d}}\right)}}	`sum((a + dk)^(n), k = 0..m - 1)=((d)^(n))/(n + 1)(bernoulli(n + 1, m +(a)/(d))- bernoulli(n + 1, (a)/(d)))`	`Sum[(a + dk)^(n), {k, 0, m - 1}]=Divide[(d)^(n),n + 1](BernoulliB[n + 1, m +Divide[a,d]]- BernoulliB[n + 1, Divide[a,d]])`	Failure	Failure	Skip	Skip
24.4.E10	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \sum_{k=0}^{m-1}(-1)^{k}(a+dk)^{n} = {\frac{d^{n}}{2}\left((-1)^{m-1}\EulerpolyE{n}@{m+\frac{a}{d}}+\EulerpolyE{n}@{\frac{a}{d}}\right)}}	`sum((- 1)^(k)(a + dk)^(n), k = 0..m - 1)=((d)^(n))/(2)((- 1)^(m - 1) euler(n, m +(a)/(d))+ euler(n, (a)/(d)))`	`Sum[(- 1)^(k)(a + dk)^(n), {k, 0, m - 1}]=Divide[(d)^(n),2]((- 1)^(m - 1) EulerE[n, m +Divide[a,d]]+ EulerE[n, Divide[a,d]])`	Failure	Failure	Skip	Skip
24.4.E21	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullipolyB{n}@{x} = 2^{n-1}\left(\BernoullipolyB{n}@{\tfrac{1}{2}x}+\BernoullipolyB{n}@{\tfrac{1}{2}x+\tfrac{1}{2}}\right)}	`bernoulli(n, x)= (2)^(n - 1)(bernoulli(n, (1)/(2)x)+ bernoulli(n, (1)/(2)*x +(1)/(2)))`	`BernoulliB[n, x]= (2)^(n - 1)(BernoulliB[n, Divide[1,2]x]+ BernoulliB[n, Divide[1,2]*x +Divide[1,2]])`	Failure	Failure	Successful	Successful
24.4.E22	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \EulerpolyE{n-1}@{x} = \frac{2}{n}\left(\BernoullipolyB{n}@{x}-2^{n}\BernoullipolyB{n}@{\tfrac{1}{2}x}\right)}	`euler(n - 1, x)=(2)/(n)(bernoulli(n, x)- (2)^(n) bernoulli(n, (1)/(2)*x))`	`EulerE[n - 1, x]=Divide[2,n](BernoulliB[n, x]- (2)^(n) BernoulliB[n, Divide[1,2]*x])`	Failure	Failure	Successful	Successful
24.4.E23	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \EulerpolyE{n-1}@{x} = \frac{2^{n}}{n}\left(\BernoullipolyB{n}@{\tfrac{1}{2}x+\tfrac{1}{2}}-\BernoullipolyB{n}@{\tfrac{1}{2}x}\right)}	`euler(n - 1, x)=((2)^(n))/(n)(bernoulli(n, (1)/(2)x +(1)/(2))- bernoulli(n, (1)/(2)*x))`	`EulerE[n - 1, x]=Divide[(2)^(n),n](BernoulliB[n, Divide[1,2]x +Divide[1,2]]- BernoulliB[n, Divide[1,2]*x])`	Failure	Failure	Successful	Successful
24.4.E25	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullipolyB{n}@{0} = (-1)^{n}\BernoullipolyB{n}@{1}}	`bernoulli(n, 0)=(- 1)^(n)* bernoulli(n, 1)`	`BernoulliB[n, 0]=(- 1)^(n)* BernoulliB[n, 1]`	Failure	Failure	Successful	Successful
24.4.E25	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle (-1)^{n}\BernoullipolyB{n}@{1} = \BernoullinumberB{n}}	`(- 1)^(n)* bernoulli(n, 1)= bernoulli(n)`	`(- 1)^(n)* BernoulliB[n, 1]= BernoulliB[n]`	Failure	Failure	Successful	Successful
24.4.E26	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \EulerpolyE{n}@{0} = -\EulerpolyE{n}@{1}}	`euler(n, 0)= - euler(n, 1)`	`EulerE[n, 0]= - EulerE[n, 1]`	Successful	Successful	-	-
24.4.E26	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle -\EulerpolyE{n}@{1} = -\frac{2}{n+1}(2^{n+1}-1)\BernoullinumberB{n+1}}	`- euler(n, 1)= -(2)/(n + 1)((2)^(n + 1)- 1) bernoulli(n + 1)`	`- EulerE[n, 1]= -Divide[2,n + 1]((2)^(n + 1)- 1) BernoulliB[n + 1]`	Failure	Failure	Error	Successful
24.4.E27	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullipolyB{n}@{\tfrac{1}{2}} = -(1-2^{1-n})\BernoullinumberB{n}}	`bernoulli(n, (1)/(2))= -(1 - (2)^(1 - n))* bernoulli(n)`	`BernoulliB[n, Divide[1,2]]= -(1 - (2)^(1 - n))* BernoulliB[n]`	Successful	Successful	-	-
24.4.E28	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \EulerpolyE{n}@{\tfrac{1}{2}} = 2^{-n}\EulernumberE{n}}	`Error`	`EulerE[n, Divide[1,2]]= (2)^(- n)* EulerE[n]`	Error	Successful	-	-
24.4.E29	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullipolyB{2n}@{\tfrac{1}{3}} = \BernoullipolyB{2n}@{\tfrac{2}{3}}}	`bernoulli(2n, (1)/(3))= bernoulli(2n, (2)/(3))`	`BernoulliB[2n, Divide[1,3]]= BernoulliB[2n, Divide[2,3]]`	Failure	Failure	Successful	Fail `Complex[0.0, 2.8284271247461903] <- {Rule[BernoulliB[Times[2, n], Rational[1, 3]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[BernoulliB[Times[2, n], Rational[2, 3]], Times[Complex[1, -1], Power[2, Rational[1, 2]]]]}` `Complex[2.8284271247461903, 2.8284271247461903] <- {Rule[BernoulliB[Times[2, n], Rational[1, 3]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[BernoulliB[Times[2, n], Rational[2, 3]], Times[Complex[-1, -1], Power[2, Rational[1, 2]]]]}` `2.8284271247461903 <- {Rule[BernoulliB[Times[2, n], Rational[1, 3]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[BernoulliB[Times[2, n], Rational[2, 3]], Times[Complex[-1, 1], Power[2, Rational[1, 2]]]]}` `Complex[0.0, -2.8284271247461903] <- {Rule[BernoulliB[Times[2, n], Rational[1, 3]], Times[Complex[1, -1], Power[2, Rational[1, 2]]]], Rule[BernoulliB[Times[2, n], Rational[2, 3]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]]}` ... skip entries to safe data
24.4.E29	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullipolyB{2n}@{\tfrac{2}{3}} = -\tfrac{1}{2}(1-3^{1-2n})\BernoullinumberB{2n}}	`bernoulli(2n, (2)/(3))= -(1)/(2)(1 - (3)^(1 - 2n)) bernoulli(2*n)`	`BernoulliB[2n, Divide[2,3]]= -Divide[1,2](1 - (3)^(1 - 2n)) BernoulliB[2*n]`	Failure	Failure	Successful	Successful
24.4.E30	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \EulerpolyE{2n-1}@{\tfrac{1}{3}} = -\EulerpolyE{2n-1}@{\tfrac{2}{3}}}	`euler(2n - 1, (1)/(3))= - euler(2n - 1, (2)/(3))`	`EulerE[2n - 1, Divide[1,3]]= - EulerE[2n - 1, Divide[2,3]]`	Failure	Failure	Successful	Fail `Complex[2.8284271247461903, 2.8284271247461903] <- {Rule[EulerE[Plus[-1, Times[2, n]], Rational[1, 3]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[EulerE[Plus[-1, Times[2, n]], Rational[2, 3]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]]}` `2.8284271247461903 <- {Rule[EulerE[Plus[-1, Times[2, n]], Rational[1, 3]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[EulerE[Plus[-1, Times[2, n]], Rational[2, 3]], Times[Complex[1, -1], Power[2, Rational[1, 2]]]]}` `Complex[0.0, 2.8284271247461903] <- {Rule[EulerE[Plus[-1, Times[2, n]], Rational[1, 3]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[EulerE[Plus[-1, Times[2, n]], Rational[2, 3]], Times[Complex[-1, 1], Power[2, Rational[1, 2]]]]}` `2.8284271247461903 <- {Rule[EulerE[Plus[-1, Times[2, n]], Rational[1, 3]], Times[Complex[1, -1], Power[2, Rational[1, 2]]]], Rule[EulerE[Plus[-1, Times[2, n]], Rational[2, 3]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]]}` ... skip entries to safe data
24.4.E30	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle -\EulerpolyE{2n-1}@{\tfrac{2}{3}} = -\frac{(1-3^{1-2n})(2^{2n}-1)}{2n}\BernoullinumberB{2n}}	`- euler(2n - 1, (2)/(3))= -((1 - (3)^(1 - 2n))((2)^(2n)- 1))/(2n)bernoulli(2*n)`	`- EulerE[2n - 1, Divide[2,3]]= -Divide[(1 - (3)^(1 - 2n))((2)^(2n)- 1),2n]BernoulliB[2*n]`	Failure	Failure	Successful	Successful
24.4.E31	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullipolyB{n}@{\tfrac{1}{4}} = (-1)^{n}\BernoullipolyB{n}@{\tfrac{3}{4}}}	`bernoulli(n, (1)/(4))=(- 1)^(n)* bernoulli(n, (3)/(4))`	`BernoulliB[n, Divide[1,4]]=(- 1)^(n)* BernoulliB[n, Divide[3,4]]`	Failure	Successful	Successful	-
24.4.E31	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle (-1)^{n}\BernoullipolyB{n}@{\tfrac{3}{4}} = -\frac{1-2^{1-n}}{2^{n}}\BernoullinumberB{n}-\frac{n}{4^{n}}\EulernumberE{n-1}}	`Error`	`(- 1)^(n)* BernoulliB[n, Divide[3,4]]= -Divide[1 - (2)^(1 - n),(2)^(n)]BernoulliB[n]-Divide[n,(4)^(n)]EulerE[n - 1]`	Error	Failure	-	Successful
24.4.E32	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullipolyB{2n}@{\tfrac{1}{6}} = \BernoullipolyB{2n}@{\tfrac{5}{6}}}	`bernoulli(2n, (1)/(6))= bernoulli(2n, (5)/(6))`	`BernoulliB[2n, Divide[1,6]]= BernoulliB[2n, Divide[5,6]]`	Failure	Failure	Successful	Fail `Complex[0.0, 2.8284271247461903] <- {Rule[BernoulliB[Times[2, n], Rational[1, 6]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[BernoulliB[Times[2, n], Rational[5, 6]], Times[Complex[1, -1], Power[2, Rational[1, 2]]]]}` `Complex[2.8284271247461903, 2.8284271247461903] <- {Rule[BernoulliB[Times[2, n], Rational[1, 6]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[BernoulliB[Times[2, n], Rational[5, 6]], Times[Complex[-1, -1], Power[2, Rational[1, 2]]]]}` `2.8284271247461903 <- {Rule[BernoulliB[Times[2, n], Rational[1, 6]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[BernoulliB[Times[2, n], Rational[5, 6]], Times[Complex[-1, 1], Power[2, Rational[1, 2]]]]}` `Complex[0.0, -2.8284271247461903] <- {Rule[BernoulliB[Times[2, n], Rational[1, 6]], Times[Complex[1, -1], Power[2, Rational[1, 2]]]], Rule[BernoulliB[Times[2, n], Rational[5, 6]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]]}` ... skip entries to safe data
24.4.E32	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullipolyB{2n}@{\tfrac{5}{6}} = \tfrac{1}{2}(1-2^{1-2n})(1-3^{1-2n})\BernoullinumberB{2n}}	`bernoulli(2n, (5)/(6))=(1)/(2)(1 - (2)^(1 - 2n))(1 - (3)^(1 - 2n)) bernoulli(2*n)`	`BernoulliB[2n, Divide[5,6]]=Divide[1,2](1 - (2)^(1 - 2n))(1 - (3)^(1 - 2n)) BernoulliB[2*n]`	Failure	Failure	Successful	Successful
24.4.E33	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \EulerpolyE{2n}@{\tfrac{1}{6}} = \EulerpolyE{2n}@{\tfrac{5}{6}}}	`euler(2n, (1)/(6))= euler(2n, (5)/(6))`	`EulerE[2n, Divide[1,6]]= EulerE[2n, Divide[5,6]]`	Failure	Failure	Successful	Fail `Complex[0.0, 2.8284271247461903] <- {Rule[EulerE[Times[2, n], Rational[1, 6]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[EulerE[Times[2, n], Rational[5, 6]], Times[Complex[1, -1], Power[2, Rational[1, 2]]]]}` `Complex[2.8284271247461903, 2.8284271247461903] <- {Rule[EulerE[Times[2, n], Rational[1, 6]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[EulerE[Times[2, n], Rational[5, 6]], Times[Complex[-1, -1], Power[2, Rational[1, 2]]]]}` `2.8284271247461903 <- {Rule[EulerE[Times[2, n], Rational[1, 6]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[EulerE[Times[2, n], Rational[5, 6]], Times[Complex[-1, 1], Power[2, Rational[1, 2]]]]}` `Complex[0.0, -2.8284271247461903] <- {Rule[EulerE[Times[2, n], Rational[1, 6]], Times[Complex[1, -1], Power[2, Rational[1, 2]]]], Rule[EulerE[Times[2, n], Rational[5, 6]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]]}` ... skip entries to safe data
24.4.E33	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \EulerpolyE{2n}@{\tfrac{5}{6}} = \frac{1+3^{-2n}}{2^{2n+1}}\EulernumberE{2n}}	`Error`	`EulerE[2n, Divide[5,6]]=Divide[1 + (3)^(- 2n),(2)^(2n + 1)]EulerE[2*n]`	Error	Failure	-	Successful
24.4.E34	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \deriv{}{x}\BernoullipolyB{n}@{x} = n\BernoullipolyB{n-1}@{x}}	`diff(bernoulli(n, x), x)= n*bernoulli(n - 1, x)`	`D[BernoulliB[n, x], x]= n*BernoulliB[n - 1, x]`	Successful	Successful	-	-
24.4.E35	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \deriv{}{x}\EulerpolyE{n}@{x} = n\EulerpolyE{n-1}@{x}}	`diff(euler(n, x), x)= n*euler(n - 1, x)`	`D[EulerE[n, x], x]= n*EulerE[n - 1, x]`	Successful	Successful	-	-
24.4.E37	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullipolyB{n}@{x+h} = (B(x)+h)^{n}}	`bernoulli(n, x + h)=(B*(x)+ h)^(n)`	`BernoulliB[n, x + h]=(B*(x)+ h)^(n)`	Failure	Failure	Fail `-.9142135620-1.414213562I <- {B = 2^(1/2)+I2^(1/2), h = 2^(1/2)+I2^(1/2), n = 1, x = 1}` `-1.328427124-2.828427124I <- {B = 2^(1/2)+I2^(1/2), h = 2^(1/2)+I2^(1/2), n = 1, x = 2}` `-1.742640686-4.242640686I <- {B = 2^(1/2)+I2^(1/2), h = 2^(1/2)+I2^(1/2), n = 1, x = 3}` `1.580880229-10.58578643I <- {B = 2^(1/2)+I2^(1/2), h = 2^(1/2)+I2^(1/2), n = 2, x = 1}` ... skip entries to safe data	Fail `Complex[-0.9142135623730951, -1.4142135623730951] <- {Rule[B, Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[h, Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[n, 1], Rule[x, 1]}` `Complex[-1.3284271247461903, -2.8284271247461903] <- {Rule[B, Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[h, Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[n, 1], Rule[x, 2]}` `Complex[-1.7426406871192857, -4.242640687119286] <- {Rule[B, Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[h, Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[n, 1], Rule[x, 3]}` `Complex[1.580880229039761, -10.585786437626906] <- {Rule[B, Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[h, Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[n, 2], Rule[x, 1]}` ... skip entries to safe data
24.4.E39	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \EulerpolyE{n}@{x+h} = (E(x)+h)^{n}}	`euler(n, x + h)=(E*(x)+ h)^(n)`	`EulerE[n, x + h]=(E*(x)+ h)^(n)`	Failure	Failure	Fail `-.9142135620-1.414213562I <- {E = 2^(1/2)+I2^(1/2), h = 2^(1/2)+I2^(1/2), n = 1, x = 1}` `-1.328427124-2.828427124I <- {E = 2^(1/2)+I2^(1/2), h = 2^(1/2)+I2^(1/2), n = 1, x = 2}` `-1.742640686-4.242640686I <- {E = 2^(1/2)+I2^(1/2), h = 2^(1/2)+I2^(1/2), n = 1, x = 3}` `1.414213562-10.58578643I <- {E = 2^(1/2)+I2^(1/2), h = 2^(1/2)+I2^(1/2), n = 2, x = 1}` ... skip entries to safe data	Fail `-2.218281828459045 <- {Rule[h, Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[n, 1], Rule[x, 1]}` `-3.93656365691809 <- {Rule[h, Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[n, 1], Rule[x, 2]}` `-5.654845485377136 <- {Rule[h, Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[n, 1], Rule[x, 3]}` `Complex[-13.66330459287579, -6.27424849394514] <- {Rule[h, Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[n, 2], Rule[x, 1]}` ... skip entries to safe data
24.5.E8	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \sum_{k=0}^{n}\frac{2^{2k}\BernoullinumberB{2k}}{(2k)!(2n+1-2k)!} = \frac{1}{(2n)!}}	`sum(((2)^(2k) bernoulli(2k))/(factorial(2k)factorial(2n + 1 - 2k)), k = 0..n)=(1)/(factorial(2n))`	`Sum[Divide[(2)^(2k) BernoulliB[2k],(2k)!(2n + 1 - 2k)!], {k, 0, n}]=Divide[1,(2n)!]`	Failure	Failure	Skip	Successful
24.6.E2	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullinumberB{n} = \frac{1}{n+1}\sum_{k=1}^{n}\sum_{j=1}^{k}(-1)^{j}j^{n}{\binom{n+1}{k-j}}\Bigg{/}{\binom{n}{k}}}	`bernoulli(n)=(1)/(n + 1)sum(sum((- 1)^(j) (j)^(n)*binomial(n + 1,k - j)/binomial(n,k), j = 1..k), k = 1..n)`	`BernoulliB[n]=Divide[1,n + 1]Sum[Sum[(- 1)^(j) (j)^(n)*Binomial[n + 1,k - j]/Binomial[n,k], {j, 1, k}], {k, 1, n}]`	Failure	Failure	Skip	Successful
24.7.E1	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullinumberB{2n} = (-1)^{n+1}\frac{4n}{1-2^{1-2n}}\int_{0}^{\infty}\frac{t^{2n-1}}{e^{2\pi t}+1}\diff{t}}	`bernoulli(2n)=(- 1)^(n + 1)(4n)/(1 - (2)^(1 - 2n))int(((t)^(2n - 1))/(exp(2Pit)+ 1), t = 0..infinity)`	`BernoulliB[2n]=(- 1)^(n + 1)Divide[4n,1 - (2)^(1 - 2n)]Integrate[Divide[(t)^(2n - 1),Exp[2Pit]+ 1], {t, 0, Infinity}]`	Failure	Failure	Skip	Successful
24.7.E1	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle (-1)^{n+1}\frac{4n}{1-2^{1-2n}}\int_{0}^{\infty}\frac{t^{2n-1}}{e^{2\pi t}+1}\diff{t} = (-1)^{n+1}\frac{2n}{1-2^{1-2n}}\int_{0}^{\infty}t^{2n-1}e^{-\pi t}\sech@{\pi t}\diff{t}}	`(- 1)^(n + 1)(4n)/(1 - (2)^(1 - 2n))int(((t)^(2n - 1))/(exp(2Pit)+ 1), t = 0..infinity)=(- 1)^(n + 1)(2n)/(1 - (2)^(1 - 2n))int((t)^(2n - 1)* exp(- Pit)sech(Pi*t), t = 0..infinity)`	`(- 1)^(n + 1)Divide[4n,1 - (2)^(1 - 2n)]Integrate[Divide[(t)^(2n - 1),Exp[2Pit]+ 1], {t, 0, Infinity}]=(- 1)^(n + 1)Divide[2n,1 - (2)^(1 - 2n)]Integrate[(t)^(2n - 1)* Exp[- Pit]Sech[Pi*t], {t, 0, Infinity}]`	Successful	Failure	-	Skip
24.7.E2	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullinumberB{2n} = (-1)^{n+1}4n\int_{0}^{\infty}\frac{t^{2n-1}}{e^{2\pi t}-1}\diff{t}}	`bernoulli(2n)=(- 1)^(n + 1) 4nint(((t)^(2n - 1))/(exp(2Pi*t)- 1), t = 0..infinity)`	`BernoulliB[2n]=(- 1)^(n + 1) 4nIntegrate[Divide[(t)^(2n - 1),Exp[2Pi*t]- 1], {t, 0, Infinity}]`	Failure	Failure	Skip	Successful
24.7.E2	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle (-1)^{n+1}4n\int_{0}^{\infty}\frac{t^{2n-1}}{e^{2\pi t}-1}\diff{t} = (-1)^{n+1}2n\int_{0}^{\infty}t^{2n-1}e^{-\pi t}\csch@{\pi t}\diff{t}}	`(- 1)^(n + 1)* 4nint(((t)^(2n - 1))/(exp(2Pit)- 1), t = 0..infinity)=(- 1)^(n + 1) 2nint((t)^(2n - 1) exp(- Pit)csch(Pi*t), t = 0..infinity)`	`(- 1)^(n + 1)* 4nIntegrate[Divide[(t)^(2n - 1),Exp[2Pit]- 1], {t, 0, Infinity}]=(- 1)^(n + 1) 2nIntegrate[(t)^(2n - 1) Exp[- Pit]Csch[Pi*t], {t, 0, Infinity}]`	Successful	Failure	-	Skip
24.7.E3	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullinumberB{2n} = (-1)^{n+1}\frac{\pi}{1-2^{1-2n}}\int_{0}^{\infty}t^{2n}\sech^{2}@{\pi t}\diff{t}}	`bernoulli(2n)=(- 1)^(n + 1)(Pi)/(1 - (2)^(1 - 2n))int((t)^(2n) (sech(Pi*t))^(2), t = 0..infinity)`	`BernoulliB[2n]=(- 1)^(n + 1)Divide[Pi,1 - (2)^(1 - 2n)]Integrate[(t)^(2n) (Sech[Pi*t])^(2), {t, 0, Infinity}]`	Failure	Failure	Skip	Error
24.7.E4	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullinumberB{2n} = (-1)^{n+1}\pi\int_{0}^{\infty}t^{2n}\csch^{2}@{\pi t}\diff{t}}	`bernoulli(2n)=(- 1)^(n + 1) Piint((t)^(2n)* (csch(Pi*t))^(2), t = 0..infinity)`	`BernoulliB[2n]=(- 1)^(n + 1) PiIntegrate[(t)^(2n)* (Csch[Pi*t])^(2), {t, 0, Infinity}]`	Failure	Failure	Skip	Error
24.7.E5	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullinumberB{2n} = (-1)^{n}\frac{2n(2n-1)}{\pi}\*\int_{0}^{\infty}t^{2n-2}\ln@{1-e^{-2\pi t}}\diff{t}}	`bernoulli(2n)=(- 1)^(n)(2n(2n - 1))/(Pi) int((t)^(2n - 2) ln(1 - exp(- 2Pit)), t = 0..infinity)`	`BernoulliB[2n]=(- 1)^(n)Divide[2n(2n - 1),Pi] Integrate[(t)^(2n - 2) Log[1 - Exp[- 2Pit]], {t, 0, Infinity}]`	Failure	Failure	Skip	Successful
24.7.E6	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \EulernumberE{2n} = (-1)^{n}2^{2n+1}\int_{0}^{\infty}t^{2n}\sech@{\pi t}\diff{t}}	`Error`	`EulerE[2n]=(- 1)^(n) (2)^(2n + 1) Integrate[(t)^(2n) Sech[Pi*t], {t, 0, Infinity}]`	Error	Failure	-	Skip
24.7.E7	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullipolyB{2n}@{x} = (-1)^{n+1}2n\*\int_{0}^{\infty}\frac{\cos@{2\pi x}-e^{-2\pi t}}{\cosh@{2\pi t}-\cos@{2\pi x}}t^{2n-1}\diff{t}}	`bernoulli(2n, x)=(- 1)^(n + 1) 2n int((cos(2Pix)- exp(- 2Pit))/(cosh(2Pit)- cos(2Pix))(t)^(2n - 1), t = 0..infinity)`	`BernoulliB[2n, x]=(- 1)^(n + 1) 2n Integrate[Divide[Cos[2Pix]- Exp[- 2Pit],Cosh[2Pit]- Cos[2Pix]](t)^(2n - 1), {t, 0, Infinity}]`	Failure	Failure	Skip	Error
24.7.E8	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullipolyB{2n+1}@{x} = (-1)^{n+1}(2n+1)\*\int_{0}^{\infty}\frac{\sin@{2\pi x}}{\cosh@{2\pi t}-\cos@{2\pi x}}t^{2n}\diff{t}}	`bernoulli(2n + 1, x)=(- 1)^(n + 1)(2n + 1) int((sin(2Pix))/(cosh(2Pit)- cos(2Pix))(t)^(2n), t = 0..infinity)`	`BernoulliB[2n + 1, x]=(- 1)^(n + 1)(2n + 1) Integrate[Divide[Sin[2Pix],Cosh[2Pit]- Cos[2Pix]](t)^(2n), {t, 0, Infinity}]`	Failure	Failure	Skip	Error
24.7.E9	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \EulerpolyE{2n}@{x} = (-1)^{n}4\int_{0}^{\infty}\frac{\sin@{\pi x}\cosh@{\pi t}}{\cosh@{2\pi t}-\cos@{2\pi x}}t^{2n}\diff{t}}	`euler(2n, x)=(- 1)^(n) 4int((sin(Pix)cosh(Pit))/(cosh(2Pit)- cos(2Pix))(t)^(2n), t = 0..infinity)`	`EulerE[2n, x]=(- 1)^(n) 4Integrate[Divide[Sin[Pix]Cosh[Pit],Cosh[2Pit]- Cos[2Pix]](t)^(2n), {t, 0, Infinity}]`	Failure	Failure	Skip	Error
24.7.E10	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \EulerpolyE{2n+1}@{x} = (-1)^{n+1}4\*\int_{0}^{\infty}\frac{\cos@{\pi x}\sinh@{\pi t}}{\cosh@{2\pi t}-\cos@{2\pi x}}t^{2n+1}\diff{t}}	`euler(2n + 1, x)=(- 1)^(n + 1) 4 * int((cos(Pix)sinh(Pit))/(cosh(2Pit)- cos(2Pix))(t)^(2*n + 1), t = 0..infinity)`	`EulerE[2n + 1, x]=(- 1)^(n + 1) 4 * Integrate[Divide[Cos[Pix]Sinh[Pit],Cosh[2Pit]- Cos[2Pix]](t)^(2*n + 1), {t, 0, Infinity}]`	Failure	Failure	Skip	Error
24.7.E11	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullipolyB{n}@{x} = \frac{1}{2\pi i}\int_{-c-i\infty}^{-c+i\infty}(x+t)^{n}\left(\frac{\pi}{\sin@{\pi t}}\right)^{2}\diff{t}}	`bernoulli(n, x)=(1)/(2PiI)int((x + t)^(n)((Pi)/(sin(Pit)))^(2), t = - c - Iinfinity..- c + I*infinity)`	`BernoulliB[n, x]=Divide[1,2PiI]Integrate[(x + t)^(n)(Divide[Pi,Sin[Pit]])^(2), {t, - c - IInfinity, - c + I*Infinity}]`	Failure	Failure	Skip	Fail `Complex[1.1891344833338187, 1.6392926414123716] <- {Rule[c, Rational[1, 2]], Rule[BernoulliB[n, x], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[Integrate[Times[Power[Pi, 2], Power[Plus[t, x], n], Power[Csc[Times[Pi, t]], 2]], {t, DirectedInfinity[Complex[0, -1]], DirectedInfinity[Complex[0, 1]]}], Times[Complex[1, 1], Power[2, Rational[1, 2]]]]}` `Complex[1.6392926414123716, 1.6392926414123716] <- {Rule[c, Rational[1, 2]], Rule[BernoulliB[n, x], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[Integrate[Times[Power[Pi, 2], Power[Plus[t, x], n], Power[Csc[Times[Pi, t]], 2]], {t, DirectedInfinity[Complex[0, -1]], DirectedInfinity[Complex[0, 1]]}], Times[Complex[1, -1], Power[2, Rational[1, 2]]]]}` `Complex[1.6392926414123716, 1.1891344833338187] <- {Rule[c, Rational[1, 2]], Rule[BernoulliB[n, x], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[Integrate[Times[Power[Pi, 2], Power[Plus[t, x], n], Power[Csc[Times[Pi, t]], 2]], {t, DirectedInfinity[Complex[0, -1]], DirectedInfinity[Complex[0, 1]]}], Times[Complex[-1, -1], Power[2, Rational[1, 2]]]]}` `Complex[1.1891344833338187, 1.1891344833338187] <- {Rule[c, Rational[1, 2]], Rule[BernoulliB[n, x], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[Integrate[Times[Power[Pi, 2], Power[Plus[t, x], n], Power[Csc[Times[Pi, t]], 2]], {t, DirectedInfinity[Complex[0, -1]], DirectedInfinity[Complex[0, 1]]}], Times[Complex[-1, 1], Power[2, Rational[1, 2]]]]}` ... skip entries to safe data
24.8.E1	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullipolyB{2n}@{x} = (-1)^{n+1}\frac{2(2n)!}{(2\pi)^{2n}}\sum_{k=1}^{\infty}\frac{\cos@{2\pi kx}}{k^{2n}}}	`bernoulli(2n, x)=(- 1)^(n + 1)(2factorial(2n))/((2Pi)^(2n))sum((cos(2Pikx))/((k)^(2*n)), k = 1..infinity)`	`BernoulliB[2n, x]=(- 1)^(n + 1)Divide[2(2n)!,(2Pi)^(2n)]Sum[Divide[Cos[2Pikx],(k)^(2*n)], {k, 1, Infinity}]`	Failure	Failure	Skip	Fail `2.0 <- {Rule[n, 1], Rule[x, 2]}` `6.0 <- {Rule[n, 1], Rule[x, 3]}` `4.0 <- {Rule[n, 2], Rule[x, 2]}` `36.0 <- {Rule[n, 2], Rule[x, 3]}` ... skip entries to safe data
24.8.E2	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullipolyB{2n+1}@{x} = (-1)^{n+1}\frac{2(2n+1)!}{(2\pi)^{2n+1}}\sum_{k=1}^{\infty}\frac{\sin@{2\pi kx}}{k^{2n+1}}}	`bernoulli(2n + 1, x)=(- 1)^(n + 1)(2factorial(2n + 1))/((2Pi)^(2n + 1))sum((sin(2Pikx))/((k)^(2*n + 1)), k = 1..infinity)`	`BernoulliB[2n + 1, x]=(- 1)^(n + 1)Divide[2(2n + 1)!,(2Pi)^(2n + 1)]Sum[Divide[Sin[2Pikx],(k)^(2*n + 1)], {k, 1, Infinity}]`	Failure	Failure	Skip	Fail `3.0 <- {Rule[n, 1], Rule[x, 2]}` `15.0 <- {Rule[n, 1], Rule[x, 3]}` `5.0 <- {Rule[n, 2], Rule[x, 2]}` `85.0 <- {Rule[n, 2], Rule[x, 3]}` ... skip entries to safe data
24.8.E4	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \EulerpolyE{2n}@{x} = (-1)^{n}\frac{4(2n)!}{\pi^{2n+1}}\sum_{k=0}^{\infty}\frac{\sin@{(2k+1)\pi x}}{(2k+1)^{2n+1}}}	`euler(2n, x)=(- 1)^(n)(4factorial(2n))/((Pi)^(2n + 1))sum((sin((2k + 1) Pix))/((2k + 1)^(2*n + 1)), k = 0..infinity)`	`EulerE[2n, x]=(- 1)^(n)Divide[4(2n)!,(Pi)^(2n + 1)]Sum[Divide[Sin[(2k + 1) Pix],(2k + 1)^(2*n + 1)], {k, 0, Infinity}]`	Failure	Failure	Skip	Fail `2.0 <- {Rule[n, 1], Rule[x, 2]}` `6.0 <- {Rule[n, 1], Rule[x, 3]}` `2.0 <- {Rule[n, 2], Rule[x, 2]}` `30.0 <- {Rule[n, 2], Rule[x, 3]}` ... skip entries to safe data
24.8.E5	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \EulerpolyE{2n-1}@{x} = (-1)^{n}\frac{4(2n-1)!}{\pi^{2n}}\sum_{k=0}^{\infty}\frac{\cos@{(2k+1)\pi x}}{(2k+1)^{2n}}}	`euler(2n - 1, x)=(- 1)^(n)(4factorial(2n - 1))/((Pi)^(2n))sum((cos((2k + 1) Pix))/((2k + 1)^(2*n)), k = 0..infinity)`	`EulerE[2n - 1, x]=(- 1)^(n)Divide[4(2n - 1)!,(Pi)^(2n)]Sum[Divide[Cos[(2k + 1) Pix],(2k + 1)^(2*n)], {k, 0, Infinity}]`	Failure	Failure	Skip	Fail `2.0 <- {Rule[n, 1], Rule[x, 2]}` `2.0 <- {Rule[n, 1], Rule[x, 3]}` `2.0 <- {Rule[n, 2], Rule[x, 2]}` `14.0 <- {Rule[n, 2], Rule[x, 3]}` ... skip entries to safe data
24.8.E6	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullinumberB{4n+2} = (8n+4)\sum_{k=1}^{\infty}\frac{k^{4n+1}}{e^{2\pi k}-1}}	`bernoulli(4n + 2)=(8n + 4)* sum(((k)^(4n + 1))/(exp(2Pi*k)- 1), k = 1..infinity)`	`BernoulliB[4n + 2]=(8n + 4)* Sum[Divide[(k)^(4n + 1),Exp[2Pi*k]- 1], {k, 1, Infinity}]`	Failure	Failure	Skip	Skip
24.8.E7	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullinumberB{2n} = \frac{(-1)^{n+1}4n}{2^{2n}-1}\sum_{k=1}^{\infty}\frac{k^{2n-1}}{e^{\pi k}+(-1)^{k+n}}}	`bernoulli(2n)=((- 1)^(n + 1) 4n)/((2)^(2n)- 1)sum(((k)^(2n - 1))/(exp(Pi*k)+(- 1)^(k + n)), k = 1..infinity)`	`BernoulliB[2n]=Divide[(- 1)^(n + 1) 4n,(2)^(2n)- 1]Sum[Divide[(k)^(2n - 1),Exp[Pi*k]+(- 1)^(k + n)], {k, 1, Infinity}]`	Failure	Failure	Skip	Skip
24.8.E8	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \frac{\BernoullinumberB{2n}}{4n}\left(\alpha^{n}-(-\beta)^{n}\right) = \alpha^{n}\sum_{k=1}^{\infty}\frac{k^{2n-1}}{e^{2\alpha k}-1}-(-\beta)^{n}\sum_{k=1}^{\infty}\frac{k^{2n-1}}{e^{2\beta k}-1}}	`(bernoulli(2n))/(4n)((alpha)^(n)-(- beta)^(n))= (alpha)^(n) sum(((k)^(2n - 1))/(exp(2alphak)- 1), k = 1..infinity)-(- beta)^(n) sum(((k)^(2n - 1))/(exp(2beta*k)- 1), k = 1..infinity)`	`Divide[BernoulliB[2n],4n]((\[Alpha])^(n)-(- \[Beta])^(n))= (\[Alpha])^(n) Sum[Divide[(k)^(2n - 1),Exp[2\[Alpha]k]- 1], {k, 1, Infinity}]-(- \[Beta])^(n) Sum[Divide[(k)^(2n - 1),Exp[2\[Beta]*k]- 1], {k, 1, Infinity}]`	Failure	Failure	Skip	Error
24.8.E9	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \EulernumberE{2n} = (-1)^{n}\sum_{k=1}^{\infty}\frac{k^{2n}}{\cosh@{\tfrac{1}{2}\pi k}}-4\sum_{k=0}^{\infty}\frac{(-1)^{k}(2k+1)^{2n}}{e^{2\pi(2k+1)}-1}}	`Error`	`EulerE[2n]=(- 1)^(n) Sum[Divide[(k)^(2n),Cosh[Divide[1,2]Pik]], {k, 1, Infinity}]- 4Sum[Divide[(- 1)^(k)(2k + 1)^(2n),Exp[2Pi(2k + 1)]- 1], {k, 0, Infinity}]`	Error	Failure	-	Skip
24.9.E1	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \|\BernoullinumberB{2n}\| > \|\BernoullipolyB{2n}@{x}\|}	`abs(bernoulli(2n))>abs(bernoulli(2n, x))`	`Abs[BernoulliB[2n]]>Abs[BernoulliB[2n, x]]`	Failure	Failure	Skip	Successful
24.9.E2	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle (2-2^{1-2n})\|\BernoullinumberB{2n}\| >= \|\BernoullipolyB{2n}@{x}-\BernoullinumberB{2n}\|}	`(2 - (2)^(1 - 2n))abs(bernoulli(2n))> =abs(bernoulli(2n, x)- bernoulli(2*n))`	`(2 - (2)^(1 - 2n))Abs[BernoulliB[2n]]> =Abs[BernoulliB[2n, x]- BernoulliB[2*n]]`	Failure	Failure	Skip	Successful
24.9.E3	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle 4^{-n}\|\EulernumberE{2n}\| > (-1)^{n}\EulerpolyE{2n}@{x}}	`Error`	`(4)^(- n)Abs[EulerE[2n]]>(- 1)^(n)* EulerE[2*n, x]`	Error	Failure	-	Successful
24.9.E3	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle (-1)^{n}\EulerpolyE{2n}@{x} > 0}	`(- 1)^(n)* euler(2*n, x)> 0`	`(- 1)^(n)* EulerE[2*n, x]> 0`	Failure	Failure	Fail `0. < 0. <- {n = 1, x = 1}` `0. < -2. <- {n = 1, x = 2}` `0. < -6. <- {n = 1, x = 3}` `0. < 0. <- {n = 2, x = 1}` ... skip entries to safe data	Successful
24.9.E4	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \frac{2(2n+1)!}{(2\pi)^{2n+1}} > (-1)^{n+1}\BernoullipolyB{2n+1}@{x}}	`(2factorial(2n + 1))/((2Pi)^(2n + 1))>(- 1)^(n + 1)* bernoulli(2*n + 1, x)`	`Divide[2(2n + 1)!,(2Pi)^(2n + 1)]>(- 1)^(n + 1)* BernoulliB[2*n + 1, x]`	Failure	Failure	Fail `3. < .4837730163e-1 <- {n = 1, x = 2}` `15. < .4837730163e-1 <- {n = 1, x = 3}` `7. < .2607362729e-1 <- {n = 3, x = 2}` `455. < .2607362729e-1 <- {n = 3, x = 3}`	Successful
24.9.E4	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle (-1)^{n+1}\BernoullipolyB{2n+1}@{x} > 0}	`(- 1)^(n + 1)* bernoulli(2*n + 1, x)> 0`	`(- 1)^(n + 1)* BernoulliB[2*n + 1, x]> 0`	Failure	Failure	Fail `0. < 0. <- {n = 1, x = 1}` `0. < 0. <- {n = 2, x = 1}` `0. < -5. <- {n = 2, x = 2}` `0. < -85. <- {n = 2, x = 3}` ... skip entries to safe data	Successful
24.9.E5	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \frac{4(2n-1)!}{\pi^{2n}}\frac{2^{2n}-1}{2^{2n}-2} > (-1)^{n}\EulerpolyE{2n-1}@{x}}	`(4factorial(2n - 1))/((Pi)^(2n))((2)^(2n)- 1)/((2)^(2n)- 2)>(- 1)^(n)* euler(2*n - 1, x)`	`Divide[4(2n - 1)!,(Pi)^(2n)]Divide[(2)^(2n)- 1,(2)^(2n)- 2]>(- 1)^(n)* EulerE[2*n - 1, x]`	Failure	Failure	Fail `2.250000000 < .2639824007 <- {n = 2, x = 2}` `13.75000000 < .2639824007 <- {n = 2, x = 3}`	Successful
24.9.E5	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle (-1)^{n}\EulerpolyE{2n-1}@{x} > 0}	`(- 1)^(n)* euler(2*n - 1, x)> 0`	`(- 1)^(n)* EulerE[2*n - 1, x]> 0`	Failure	Failure	Fail `0. < -.5000000000 <- {n = 1, x = 1}` `0. < -1.500000000 <- {n = 1, x = 2}` `0. < -2.500000000 <- {n = 1, x = 3}` `0. < -.2500000000 <- {n = 2, x = 1}` ... skip entries to safe data	Successful
24.9.E6	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle 5\sqrt{\pi n}\left(\frac{n}{\pi e}\right)^{2n} > (-1)^{n+1}\BernoullinumberB{2n}}	`5sqrt(Pin)((n)/(Piexp(1)))^(2n)>(- 1)^(n + 1) bernoulli(2*n)`	`5Sqrt[Pin](Divide[n,PiE])^(2n)>(- 1)^(n + 1) BernoulliB[2*n]`	Failure	Failure	Fail `.1666666667 < .1215223702 <- {n = 1}`	Successful
24.9.E6	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle (-1)^{n+1}\BernoullinumberB{2n} > 4\sqrt{\pi n}\left(\frac{n}{\pi e}\right)^{2n}}	`(- 1)^(n + 1)* bernoulli(2n)> 4sqrt(Pin)((n)/(Piexp(1)))^(2n)`	`(- 1)^(n + 1)* BernoulliB[2n]> 4Sqrt[Pin](Divide[n,PiE])^(2n)`	Failure	Failure	Successful	Successful
24.9.E7	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle 8\sqrt{\frac{n}{\pi}}\left(\frac{4n}{\pi e}\right)^{2n}\left(1+\frac{1}{12n}\right) > (-1)^{n}\EulernumberE{2n}}	`Error`	`8Sqrt[Divide[n,Pi]](Divide[4n,PiE])^(2n)(1 +Divide[1,12n])>(- 1)^(n) EulerE[2*n]`	Error	Failure	-	Successful
24.9.E7	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle (-1)^{n}\EulernumberE{2n} > 8\sqrt{\frac{n}{\pi}}\left(\frac{4n}{\pi e}\right)^{2n}}	`Error`	`(- 1)^(n)* EulerE[2n]> 8Sqrt[Divide[n,Pi]](Divide[4n,PiE])^(2n)`	Error	Failure	-	Successful
24.9.E8	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \frac{2(2n)!}{(2\pi)^{2n}}\frac{1}{1-2^{\beta-2n}} >= (-1)^{n+1}\BernoullinumberB{2n}\geq\frac{2(2n)!}{(2\pi)^{2n}}\frac{1}{1-2^{-2n}}}	`(2factorial(2n))/((2Pi)^(2n))(1)/(1 - (2)^(beta - 2n))> =(- 1)^(n + 1)* bernoulli(2n)>=(2factorial(2n))/((2Pi)^(2n))(1)/(1 - (2)^(- 2*n))`	`Divide[2(2n)!,(2Pi)^(2n)]Divide[1,1 - (2)^(\[Beta]- 2n)]> =(- 1)^(n + 1)* BernoulliB[2n]>=Divide[2(2n)!,(2Pi)^(2n)]Divide[1,1 - (2)^(- 2*n)]`	Failure	Failure	Error	Successful
24.9.E9	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \beta = 2+\frac{\ln@{1-6\pi^{-2}}}{\ln@@{2}}}	`beta = 2 +(ln(1 - 6*(Pi)^(- 2)))/(ln(2))`	`\[Beta]= 2 +Divide[Log[1 - 6*(Pi)^(- 2)],Log[2]]`	Failure	Failure	Fail `.765019736+1.414213562I <- {beta = 2^(1/2)+I2^(1/2)}` `.765019736-1.414213562I <- {beta = 2^(1/2)-I2^(1/2)}` `-2.063407388-1.414213562I <- {beta = -2^(1/2)-I2^(1/2)}` `-2.063407388+1.414213562I <- {beta = -2^(1/2)+I2^(1/2)}`	Fail `Complex[0.7650197375731231, 1.4142135623730951] <- {Rule[β, Times[Complex[1, 1], Power[2, Rational[1, 2]]]]}` `Complex[0.7650197375731231, -1.4142135623730951] <- {Rule[β, Times[Complex[1, -1], Power[2, Rational[1, 2]]]]}` `Complex[-2.0634073871730667, -1.4142135623730951] <- {Rule[β, Times[Complex[-1, -1], Power[2, Rational[1, 2]]]]}` `Complex[-2.0634073871730667, 1.4142135623730951] <- {Rule[β, Times[Complex[-1, 1], Power[2, Rational[1, 2]]]]}`
24.9.E10	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \frac{4^{n+1}(2n)!}{\pi^{2n+1}} > (-1)^{n}\EulernumberE{2n}}	`Error`	`Divide[(4)^(n + 1)(2n)!,(Pi)^(2n + 1)]>(- 1)^(n) EulerE[2*n]`	Error	Failure	-	Successful
24.9.E10	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle (-1)^{n}\EulernumberE{2n} > \frac{4^{n+1}(2n)!}{\pi^{2n+1}}\frac{1}{1+3^{-1-2n}}}	`Error`	`(- 1)^(n)* EulerE[2n]>Divide[(4)^(n + 1)(2n)!,(Pi)^(2n + 1)]Divide[1,1 + (3)^(- 1 - 2n)]`	Error	Failure	-	Successful
24.13.E2	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \int_{x}^{x+1}\BernoullipolyB{n}@{t}\diff{t} = x^{n}}	`int(bernoulli(n, t), t = x..x + 1)= (x)^(n)`	`Integrate[BernoulliB[n, t], {t, x, x + 1}]= (x)^(n)`	Failure	Failure	Skip	Successful
24.13.E3	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \int_{x}^{x+(1/2)}\BernoullipolyB{n}@{t}\diff{t} = \frac{\EulerpolyE{n}@{2x}}{2^{n+1}}}	`int(bernoulli(n, t), t = x..x +(1/ 2))=(euler(n, 2*x))/((2)^(n + 1))`	`Integrate[BernoulliB[n, t], {t, x, x +(1/ 2)}]=Divide[EulerE[n, 2*x],(2)^(n + 1)]`	Failure	Failure	Skip	Successful
24.13.E4	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \int_{0}^{1/2}\BernoullipolyB{n}@{t}\diff{t} = \frac{1-2^{n+1}}{2^{n}}\frac{\BernoullinumberB{n+1}}{n+1}}	`int(bernoulli(n, t), t = 0..1/ 2)=(1 - (2)^(n + 1))/((2)^(n))*(bernoulli(n + 1))/(n + 1)`	`Integrate[BernoulliB[n, t], {t, 0, 1/ 2}]=Divide[1 - (2)^(n + 1),(2)^(n)]*Divide[BernoulliB[n + 1],n + 1]`	Failure	Failure	Skip	Successful
24.13.E5	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \int_{1/4}^{3/4}\BernoullipolyB{n}@{t}\diff{t} = \frac{\EulernumberE{n}}{2^{2n+1}}}	`Error`	`Integrate[BernoulliB[n, t], {t, 1/ 4, 3/ 4}]=Divide[EulerE[n],(2)^(2*n + 1)]`	Error	Failure	-	Successful
24.13.E6	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \int_{0}^{1}\BernoullipolyB{n}@{t}\BernoullipolyB{m}@{t}\diff{t} = \frac{(-1)^{n-1}m!n!}{(m+n)!}\BernoullinumberB{m+n}}	`int(bernoulli(n, t)bernoulli(m, t), t = 0..1)=((- 1)^(n - 1) factorial(m)factorial(n))/(factorial(m + n))bernoulli(m + n)`	`Integrate[BernoulliB[n, t]BernoulliB[m, t], {t, 0, 1}]=Divide[(- 1)^(n - 1) (m)!(n)!,(m + n)!]BernoulliB[m + n]`	Failure	Failure	Skip	Successful
24.13.E8	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \int_{0}^{1}\EulerpolyE{n}@{t}\diff{t} = -2\frac{\EulerpolyE{n+1}@{0}}{n+1}}	`int(euler(n, t), t = 0..1)= - 2*(euler(n + 1, 0))/(n + 1)`	`Integrate[EulerE[n, t], {t, 0, 1}]= - 2*Divide[EulerE[n + 1, 0],n + 1]`	Failure	Failure	Skip	Successful
24.13.E8	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle -2\frac{\EulerpolyE{n+1}@{0}}{n+1} = \frac{4(2^{n+2}-1)}{(n+1)(n+2)}\BernoullinumberB{n+2}}	`- 2(euler(n + 1, 0))/(n + 1)=(4((2)^(n + 2)- 1))/((n + 1)(n + 2))bernoulli(n + 2)`	`- 2Divide[EulerE[n + 1, 0],n + 1]=Divide[4((2)^(n + 2)- 1),(n + 1)(n + 2)]BernoulliB[n + 2]`	Failure	Failure	Successful	Successful
24.13.E9	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \int_{0}^{1/2}\EulerpolyE{2n}@{t}\diff{t} = -\frac{\EulerpolyE{2n+1}@{0}}{2n+1}}	`int(euler(2n, t), t = 0..1/ 2)= -(euler(2n + 1, 0))/(2*n + 1)`	`Integrate[EulerE[2n, t], {t, 0, 1/ 2}]= -Divide[EulerE[2n + 1, 0],2*n + 1]`	Failure	Failure	Skip	Successful
24.13.E9	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle -\frac{\EulerpolyE{2n+1}@{0}}{2n+1} = \frac{2(2^{2n+2}-1)\BernoullinumberB{2n+2}}{(2n+1)(2n+2)}}	`-(euler(2n + 1, 0))/(2n + 1)=(2((2)^(2n + 2)- 1)* bernoulli(2n + 2))/((2n + 1)(2n + 2))`	`-Divide[EulerE[2n + 1, 0],2n + 1]=Divide[2((2)^(2n + 2)- 1)* BernoulliB[2n + 2],(2n + 1)(2n + 2)]`	Failure	Failure	Successful	Successful
24.13.E10	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \int_{0}^{1/2}\EulerpolyE{2n-1}@{t}\diff{t} = \frac{\EulernumberE{2n}}{n2^{2n+1}}}	`Error`	`Integrate[EulerE[2n - 1, t], {t, 0, 1/ 2}]=Divide[EulerE[2n],n(2)^(2n + 1)]`	Error	Failure	-	Successful
24.13.E11	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \int_{0}^{1}\EulerpolyE{n}@{t}\EulerpolyE{m}@{t}\diff{t} = (-1)^{n}4\frac{(2^{m+n+2}-1)m!n!}{(m+n+2)!}\BernoullinumberB{m+n+2}}	`int(euler(n, t)euler(m, t), t = 0..1)=(- 1)^(n) 4(((2)^(m + n + 2)- 1) factorial(m)factorial(n))/(factorial(m + n + 2))bernoulli(m + n + 2)`	`Integrate[EulerE[n, t]EulerE[m, t], {t, 0, 1}]=(- 1)^(n) 4Divide[((2)^(m + n + 2)- 1) (m)!(n)!,(m + n + 2)!]BernoulliB[m + n + 2]`	Failure	Failure	Skip	Successful
24.14.E4	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle -2^{n+1}\EulerpolyE{n+1}@{0} = -2^{n+2}(1-2^{n+2})\frac{\BernoullinumberB{n+2}}{n+2}}	`- (2)^(n + 1)* euler(n + 1, 0)= - (2)^(n + 2)(1 - (2)^(n + 2))(bernoulli(n + 2))/(n + 2)`	`- (2)^(n + 1)* EulerE[n + 1, 0]= - (2)^(n + 2)(1 - (2)^(n + 2))Divide[BernoulliB[n + 2],n + 2]`	Failure	Failure	Successful	Successful
24.14.E7	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \sum_{j=0}^{m}\sum_{k=0}^{n}\binom{m}{j}\binom{n}{k}\frac{\BernoullinumberB{j}\BernoullinumberB{k}}{m+n-j-k+1} = (-1)^{m-1}\frac{m!n!}{(m+n)!}\BernoullinumberB{m+n}}	`sum(sum(binomial(m,j)binomial(n,k)(bernoulli(j)bernoulli(k))/(m + n - j - k + 1), k = 0..n), j = 0..m)=(- 1)^(m - 1)(factorial(m)factorial(n))/(factorial(m + n))bernoulli(m + n)`	`Sum[Sum[Binomial[m,j]Binomial[n,k]Divide[BernoulliB[j]BernoulliB[k],m + n - j - k + 1], {k, 0, n}], {j, 0, m}]=(- 1)^(m - 1)Divide[(m)!(n)!,(m + n)!]BernoulliB[m + n]`	Failure	Failure	Skip	Successful
24.15.E2	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle G_{n} = 2(1-2^{n})\BernoullinumberB{n}}	`G[n]= 2(1 - (2)^(n)) bernoulli(n)`	`Subscript[G, n]= 2(1 - (2)^(n)) BernoulliB[n]`	Failure	Failure	Fail `.414213562+1.414213562I <- {G[n] = 2^(1/2)+I2^(1/2), n = 1}` `2.414213562+1.414213562I <- {G[n] = 2^(1/2)+I2^(1/2), n = 2}` `1.414213562+1.414213562I <- {G[n] = 2^(1/2)+I2^(1/2), n = 3}` `.414213562-1.414213562I <- {G[n] = 2^(1/2)-I2^(1/2), n = 1}` ... skip entries to safe data	Successful
24.15.E3	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \tan@@{t} = \sum_{n=0}^{\infty}T_{n}\frac{t^{n}}{n!}}	`tan(t)= sum(T[n]*((t)^(n))/(factorial(n)), n = 0..infinity)`	`Tan[t]= Sum[Subscript[T, n]*Divide[(t)^(n),(n)!], {n, 0, Infinity}]`	Failure	Failure	Skip	Skip
24.15.E4	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle T_{2n-1} = (-1)^{n-1}\frac{2^{2n}(2^{2n}-1)}{2n}\BernoullinumberB{2n}}	`T[2n - 1]=(- 1)^(n - 1)((2)^(2n)((2)^(2n)- 1))/(2n)bernoulli(2n)`	`Subscript[T, 2n - 1]=(- 1)^(n - 1)Divide[(2)^(2n)((2)^(2n)- 1),2n]BernoulliB[2n]`	Failure	Failure	Fail `.414213562+1.414213562I <- {T[2n-1] = 2^(1/2)+I2^(1/2), n = 1}` `-.585786438+1.414213562I <- {T[2n-1] = 2^(1/2)+I2^(1/2), n = 2}` `-14.58578644+1.414213562I <- {T[2n-1] = 2^(1/2)+I2^(1/2), n = 3}` `.414213562-1.414213562I <- {T[2n-1] = 2^(1/2)-I2^(1/2), n = 1}` ... skip entries to safe data	Successful
24.15.E6	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullinumberB{n} = \sum_{k=0}^{n}(-1)^{k}\frac{k!\StirlingnumberS@{n}{k}}{k+1}}	`bernoulli(n)= sum((- 1)^(k)(factorial(k)Stirling2(n, k))/(k + 1), k = 0..n)`	`BernoulliB[n]= Sum[(- 1)^(k)Divide[(k)!StirlingS2[n, k],k + 1], {k, 0, n}]`	Failure	Successful	Skip	-
24.15.E7	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullinumberB{n} = \sum_{k=0}^{n}(-1)^{k}\binom{n+1}{k+1}\StirlingnumberS@{n+k}{k}\bigg{/}\binom{n+k}{k}}	`bernoulli(n)= sum((- 1)^(k)binomial(n + 1,k + 1)Stirling2(n + k, k)/binomial(n + k,k), k = 0..n)`	`BernoulliB[n]= Sum[(- 1)^(k)Binomial[n + 1,k + 1]StirlingS2[n + k, k]/Binomial[n + k,k], {k, 0, n}]`	Failure	Failure	Skip	Fail `Complex[0.0, 2.8284271247461903] <- {Rule[BernoulliB[n], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[Sum[Times[Power[-1, k], Binomial[Plus[1, n], Plus[1, k]], Power[Binomial[Plus[k, n], k], -1], StirlingS2[Plus[k, n], k]], {k, 0, n}], Times[Complex[1, -1], Power[2, Rational[1, 2]]]]}` `Complex[2.8284271247461903, 2.8284271247461903] <- {Rule[BernoulliB[n], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[Sum[Times[Power[-1, k], Binomial[Plus[1, n], Plus[1, k]], Power[Binomial[Plus[k, n], k], -1], StirlingS2[Plus[k, n], k]], {k, 0, n}], Times[Complex[-1, -1], Power[2, Rational[1, 2]]]]}` `2.8284271247461903 <- {Rule[BernoulliB[n], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[Sum[Times[Power[-1, k], Binomial[Plus[1, n], Plus[1, k]], Power[Binomial[Plus[k, n], k], -1], StirlingS2[Plus[k, n], k]], {k, 0, n}], Times[Complex[-1, 1], Power[2, Rational[1, 2]]]]}` `Complex[0.0, -2.8284271247461903] <- {Rule[BernoulliB[n], Times[Complex[1, -1], Power[2, Rational[1, 2]]]], Rule[Sum[Times[Power[-1, k], Binomial[Plus[1, n], Plus[1, k]], Power[Binomial[Plus[k, n], k], -1], StirlingS2[Plus[k, n], k]], {k, 0, n}], Times[Complex[1, 1], Power[2, Rational[1, 2]]]]}` ... skip entries to safe data
24.15.E8	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \sum_{k=0}^{n}(-1)^{n+k}\Stirlingnumbers@{n+1}{k+1}\BernoullinumberB{k} = \frac{n!}{n+1}}	`sum((- 1)^(n + k)* Stirling1(n + 1, k + 1)*bernoulli(k), k = 0..n)=(factorial(n))/(n + 1)`	`Sum[(- 1)^(n + k)* StirlingS1[n + 1, k + 1]*BernoulliB[k], {k, 0, n}]=Divide[(n)!,n + 1]`	Failure	Failure	Skip	Successful
24.16.E5	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \frac{t}{\ln@{1+t}} = \sum_{n=0}^{\infty}b_{n}t^{n}}	`(t)/(ln(1 + t))= sum(b[n]*(t)^(n), n = 0..infinity)`	`Divide[t,Log[1 + t]]= Sum[Subscript[b, n]*(t)^(n), {n, 0, Infinity}]`	Failure	Failure	Skip	Skip
24.16.E8	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \beta_{n}(\lambda) = n!b_{n}\lambda^{n}+\sum_{k=1}^{\floor{\ifrac{n}{2}}}\frac{n}{2k}\BernoullinumberB{2k}\Stirlingnumbers@{n-1}{2k-1}\lambda^{n-2k}}	`beta[n](lambda)= factorial(n)b[n](lambda)^(n)+ sum((n)/(2k)bernoulli(2k)Stirling1(n - 1, 2k - 1)(lambda)^(n - 2k), k = 1..floor((n)/(2)))`	`Subscript[\[Beta], n](\[Lambda])= (n)!Subscript[b, n](\[Lambda])^(n)+ Sum[Divide[n,2k]BernoulliB[2k]StirlingS1[n - 1, 2k - 1](\[Lambda])^(n - 2k), {k, 1, Floor[Divide[n,2]]}]`	Failure	Failure	Skip	Skip
24.16.E12	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullipolyB{n}@{x} = B_{n,\chi_{0}}(x-1)}	`bernoulli(n, x)= B[n , chi[0]]*(x - 1)`	`BernoulliB[n, x]= Subscript[B, n , Subscript[\[Chi], 0]]*(x - 1)`	Failure	Failure	Fail `.5000000000 <- {B[n,chi[0]] = 2^(1/2)+I2^(1/2), n = 1, x = 1}` `.85786438e-1-1.414213562I <- {B[n,chi[0]] = 2^(1/2)+I2^(1/2), n = 1, x = 2}` `-.328427124-2.828427124I <- {B[n,chi[0]] = 2^(1/2)+I2^(1/2), n = 1, x = 3}` `.1666666667 <- {B[n,chi[0]] = 2^(1/2)+I2^(1/2), n = 2, x = 1}` ... skip entries to safe data	Fail `0.5 <- {Rule[B, Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[n, 1], Rule[x, 1], Rule[Subscript[χ, 0], Times[Complex[1, 1], Power[2, Rational[1, 2]]]]}` `0.16666666666666666 <- {Rule[B, Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[n, 2], Rule[x, 1], Rule[Subscript[χ, 0], Times[Complex[1, 1], Power[2, Rational[1, 2]]]]}` `0.5 <- {Rule[B, Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[n, 1], Rule[x, 1], Rule[Subscript[χ, 0], Times[Complex[1, -1], Power[2, Rational[1, 2]]]]}` `0.16666666666666666 <- {Rule[B, Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[n, 2], Rule[x, 1], Rule[Subscript[χ, 0], Times[Complex[1, -1], Power[2, Rational[1, 2]]]]}` ... skip entries to safe data
24.16.E13	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \EulerpolyE{n}@{x} = -\frac{2^{1-n}}{n+1}B_{n+1,\chi_{4}}(2x-1)}	`euler(n, x)= -((2)^(1 - n))/(n + 1)B[n + 1 , chi[4]](2*x - 1)`	`EulerE[n, x]= -Divide[(2)^(1 - n),n + 1]Subscript[B, n + 1 , Subscript[\[Chi], 4]](2*x - 1)`	Failure	Failure	Fail `1.207106781+.7071067810I <- {B[n+1,chi[4]] = 2^(1/2)+I2^(1/2), n = 1, x = 1}` `3.621320343+2.121320343I <- {B[n+1,chi[4]] = 2^(1/2)+I2^(1/2), n = 1, x = 2}` `6.035533905+3.535533905I <- {B[n+1,chi[4]] = 2^(1/2)+I2^(1/2), n = 1, x = 3}` `.2357022604+.2357022604I <- {B[n+1,chi[4]] = 2^(1/2)+I2^(1/2), n = 2, x = 1}` ... skip entries to safe data	Successful
24.19#Ex2	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \BernoullinumberB{2n} = \dfrac{N_{2n}}{D_{2n}}}	`bernoulli(2n)=(N[2n])/(D[2*n])`	`BernoulliB[2n]=Divide[Subscript[N, 2n],Subscript[D, 2*n]]`	Failure	Failure	Fail `-.8333333333 <- {D[2n] = 2^(1/2)+I2^(1/2), N[2n] = 2^(1/2)+I2^(1/2), n = 1}` `-1.033333333 <- {D[2n] = 2^(1/2)+I2^(1/2), N[2n] = 2^(1/2)+I2^(1/2), n = 2}` `-.9761904762 <- {D[2n] = 2^(1/2)+I2^(1/2), N[2n] = 2^(1/2)+I2^(1/2), n = 3}` `.1666666667+1.000000000I <- {D[2n] = 2^(1/2)+I2^(1/2), N[2n] = 2^(1/2)-I*2^(1/2), n = 1}` ... skip entries to safe data	Fail `Complex[0.41421356237309515, 1.4142135623730951] <- {Rule[BernoulliB[Times[2, n]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[Subscript[D, Times[2, n]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[Subscript[N, Times[2, n]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]]}` `Complex[1.4142135623730951, 2.414213562373095] <- {Rule[BernoulliB[Times[2, n]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[Subscript[D, Times[2, n]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[Subscript[N, Times[2, n]], Times[Complex[1, -1], Power[2, Rational[1, 2]]]]}` `Complex[2.414213562373095, 1.4142135623730951] <- {Rule[BernoulliB[Times[2, n]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[Subscript[D, Times[2, n]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[Subscript[N, Times[2, n]], Times[Complex[-1, -1], Power[2, Rational[1, 2]]]]}` `Complex[1.4142135623730951, 0.41421356237309515] <- {Rule[BernoulliB[Times[2, n]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[Subscript[D, Times[2, n]], Times[Complex[1, 1], Power[2, Rational[1, 2]]]], Rule[Subscript[N, Times[2, n]], Times[Complex[-1, 1], Power[2, Rational[1, 2]]]]}` ... skip entries to safe data
24.19.E3	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \frac{t^{2}}{\cosh@@{t}-1} = -2\sum_{n=0}^{\infty}(2n-1)\BernoullinumberB{2n}\frac{t^{2n}}{(2n)!}}	`((t)^(2))/(cosh(t)- 1)= - 2sum((2n - 1)* bernoulli(2n)((t)^(2n))/(factorial(2n)), n = 0..infinity)`	`Divide[(t)^(2),Cosh[t]- 1]= - 2Sum[(2n - 1)* BernoulliB[2n]Divide[(t)^(2n),(2n)!], {n, 0, Infinity}]`	Failure	Failure	Skip	Error

Results of Bernoulli and Euler Polynomials

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