4.19: Difference between revisions

Latest revision as of 11:06, 28 June 2021

DLMF	Formula	Constraints	Maple	Mathematica	Symbolic Maple	Symbolic Mathematica	Numeric Maple	Numeric Mathematica
4.19.E7	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \ln@{\frac{\sin@@{z}}{z}} = \sum_{n=1}^{\infty}\frac{(-1)^{n}2^{2n-1}\BernoullinumberB{2n}}{n(2n)!}z^{2n}} `\ln@{\frac{\sin@@{z}}{z}} = \sum_{n=1}^{\infty}\frac{(-1)^{n}2^{2n-1}\BernoullinumberB{2n}}{n(2n)!}z^{2n}`	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \|z\| < \pi}	ln((sin(z))/(z)) = sum(((- 1)^(n)* (2)^(2n - 1) bernoulli(2n))/(nfactorial(2n))(z)^(2*n), n = 1..infinity)	Log[Divide[Sin[z],z]] == Sum[Divide[(- 1)^(n)* (2)^(2n - 1) BernoulliB[2n],n(2n)!](z)^(2*n), {n, 1, Infinity}, GenerateConditions->None]	Failure	Failure	Successful [Tested: 7]	Successful [Tested: 7]
4.19.E8	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \ln@{\cos@@{z}} = \sum_{n=1}^{\infty}\frac{(-1)^{n}2^{2n-1}(2^{2n}-1)\BernoullinumberB{2n}}{n(2n)!}z^{2n}} `\ln@{\cos@@{z}} = \sum_{n=1}^{\infty}\frac{(-1)^{n}2^{2n-1}(2^{2n}-1)\BernoullinumberB{2n}}{n(2n)!}z^{2n}`	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \|z\| < \frac{1}{2}\pi}	ln(cos(z)) = sum(((- 1)^(n)* (2)^(2n - 1)((2)^(2n)- 1)bernoulli(2n))/(nfactorial(2n))(z)^(2*n), n = 1..infinity)	Log[Cos[z]] == Sum[Divide[(- 1)^(n)* (2)^(2n - 1)((2)^(2n)- 1)BernoulliB[2n],n(2n)!](z)^(2*n), {n, 1, Infinity}, GenerateConditions->None]	Failure	Failure	Manual Skip!	Successful [Tested: 6]
4.19.E9	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \ln@{\frac{\tan@@{z}}{z}} = \sum_{n=1}^{\infty}\frac{(-1)^{n-1}2^{2n}(2^{2n-1}-1)\BernoullinumberB{2n}}{n(2n)!}z^{2n}} `\ln@{\frac{\tan@@{z}}{z}} = \sum_{n=1}^{\infty}\frac{(-1)^{n-1}2^{2n}(2^{2n-1}-1)\BernoullinumberB{2n}}{n(2n)!}z^{2n}`	Failed to parse (LaTeXML (experimental; uses MathML): Invalid response ("") from server "http://latexml:8080/convert/":): {\displaystyle \|z\| < \frac{1}{2}\pi}	ln((tan(z))/(z)) = sum(((- 1)^(n - 1)* (2)^(2n)((2)^(2n - 1)- 1)bernoulli(2n))/(nfactorial(2n))(z)^(2*n), n = 1..infinity)	Log[Divide[Tan[z],z]] == Sum[Divide[(- 1)^(n - 1)* (2)^(2n)((2)^(2n - 1)- 1)BernoulliB[2n],n(2n)!](z)^(2*n), {n, 1, Infinity}, GenerateConditions->None]	Failure	Failure	Manual Skip!	Successful [Tested: 6]

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 ! scope="col" style="position: sticky; top: 0;" | Numeric<br>Mathematica
 |-
-| [https://dlmf.nist.gov/4.19.E7 4.19.E7] || [[Item:Q1686|<math>\ln@{\frac{\sin@@{z}}{z}} = \sum_{n=1}^{\infty}\frac{(-1)^{n}2^{2n-1}\BernoullinumberB{2n}}{n(2n)!}z^{2n}</math>]]<br><syntaxhighlight lang="tex" style="font-size: 75%;" inline>\ln@{\frac{\sin@@{z}}{z}} = \sum_{n=1}^{\infty}\frac{(-1)^{n}2^{2n-1}\BernoullinumberB{2n}}{n(2n)!}z^{2n}</syntaxhighlight> || <math>|z| < \pi</math> || <syntaxhighlight lang=mathematica>ln((sin(z))/(z)) = sum(((- 1)^(n)* (2)^(2*n - 1)* bernoulli(2*n))/(n*factorial(2*n))*(z)^(2*n), n = 1..infinity)</syntaxhighlight> || <syntaxhighlight lang=mathematica>Log[Divide[Sin[z],z]] == Sum[Divide[(- 1)^(n)* (2)^(2*n - 1)* BernoulliB[2*n],n*(2*n)!]*(z)^(2*n), {n, 1, Infinity}, GenerateConditions->None]</syntaxhighlight> || Failure || Failure || Successful [Tested: 7] || Successful [Tested: 7]
+| [https://dlmf.nist.gov/4.19.E7 4.19.E7] || <math qid="Q1686">\ln@{\frac{\sin@@{z}}{z}} = \sum_{n=1}^{\infty}\frac{(-1)^{n}2^{2n-1}\BernoullinumberB{2n}}{n(2n)!}z^{2n}</math><br><syntaxhighlight lang="tex" style="font-size: 75%;" inline>\ln@{\frac{\sin@@{z}}{z}} = \sum_{n=1}^{\infty}\frac{(-1)^{n}2^{2n-1}\BernoullinumberB{2n}}{n(2n)!}z^{2n}</syntaxhighlight> || <math>|z| < \pi</math> || <syntaxhighlight lang=mathematica>ln((sin(z))/(z)) = sum(((- 1)^(n)* (2)^(2*n - 1)* bernoulli(2*n))/(n*factorial(2*n))*(z)^(2*n), n = 1..infinity)</syntaxhighlight> || <syntaxhighlight lang=mathematica>Log[Divide[Sin[z],z]] == Sum[Divide[(- 1)^(n)* (2)^(2*n - 1)* BernoulliB[2*n],n*(2*n)!]*(z)^(2*n), {n, 1, Infinity}, GenerateConditions->None]</syntaxhighlight> || Failure || Failure || Successful [Tested: 7] || Successful [Tested: 7]
 |-
-| [https://dlmf.nist.gov/4.19.E8 4.19.E8] || [[Item:Q1687|<math>\ln@{\cos@@{z}} = \sum_{n=1}^{\infty}\frac{(-1)^{n}2^{2n-1}(2^{2n}-1)\BernoullinumberB{2n}}{n(2n)!}z^{2n}</math>]]<br><syntaxhighlight lang="tex" style="font-size: 75%;" inline>\ln@{\cos@@{z}} = \sum_{n=1}^{\infty}\frac{(-1)^{n}2^{2n-1}(2^{2n}-1)\BernoullinumberB{2n}}{n(2n)!}z^{2n}</syntaxhighlight> || <math>|z| < \frac{1}{2}\pi</math> || <syntaxhighlight lang=mathematica>ln(cos(z)) = sum(((- 1)^(n)* (2)^(2*n - 1)*((2)^(2*n)- 1)*bernoulli(2*n))/(n*factorial(2*n))*(z)^(2*n), n = 1..infinity)</syntaxhighlight> || <syntaxhighlight lang=mathematica>Log[Cos[z]] == Sum[Divide[(- 1)^(n)* (2)^(2*n - 1)*((2)^(2*n)- 1)*BernoulliB[2*n],n*(2*n)!]*(z)^(2*n), {n, 1, Infinity}, GenerateConditions->None]</syntaxhighlight> || Failure || Failure || Manual Skip! || Successful [Tested: 6]
+| [https://dlmf.nist.gov/4.19.E8 4.19.E8] || <math qid="Q1687">\ln@{\cos@@{z}} = \sum_{n=1}^{\infty}\frac{(-1)^{n}2^{2n-1}(2^{2n}-1)\BernoullinumberB{2n}}{n(2n)!}z^{2n}</math><br><syntaxhighlight lang="tex" style="font-size: 75%;" inline>\ln@{\cos@@{z}} = \sum_{n=1}^{\infty}\frac{(-1)^{n}2^{2n-1}(2^{2n}-1)\BernoullinumberB{2n}}{n(2n)!}z^{2n}</syntaxhighlight> || <math>|z| < \frac{1}{2}\pi</math> || <syntaxhighlight lang=mathematica>ln(cos(z)) = sum(((- 1)^(n)* (2)^(2*n - 1)*((2)^(2*n)- 1)*bernoulli(2*n))/(n*factorial(2*n))*(z)^(2*n), n = 1..infinity)</syntaxhighlight> || <syntaxhighlight lang=mathematica>Log[Cos[z]] == Sum[Divide[(- 1)^(n)* (2)^(2*n - 1)*((2)^(2*n)- 1)*BernoulliB[2*n],n*(2*n)!]*(z)^(2*n), {n, 1, Infinity}, GenerateConditions->None]</syntaxhighlight> || Failure || Failure || Manual Skip! || Successful [Tested: 6]
 |-
-| [https://dlmf.nist.gov/4.19.E9 4.19.E9] || [[Item:Q1688|<math>\ln@{\frac{\tan@@{z}}{z}} = \sum_{n=1}^{\infty}\frac{(-1)^{n-1}2^{2n}(2^{2n-1}-1)\BernoullinumberB{2n}}{n(2n)!}z^{2n}</math>]]<br><syntaxhighlight lang="tex" style="font-size: 75%;" inline>\ln@{\frac{\tan@@{z}}{z}} = \sum_{n=1}^{\infty}\frac{(-1)^{n-1}2^{2n}(2^{2n-1}-1)\BernoullinumberB{2n}}{n(2n)!}z^{2n}</syntaxhighlight> || <math>|z| < \frac{1}{2}\pi</math> || <syntaxhighlight lang=mathematica>ln((tan(z))/(z)) = sum(((- 1)^(n - 1)* (2)^(2*n)*((2)^(2*n - 1)- 1)*bernoulli(2*n))/(n*factorial(2*n))*(z)^(2*n), n = 1..infinity)</syntaxhighlight> || <syntaxhighlight lang=mathematica>Log[Divide[Tan[z],z]] == Sum[Divide[(- 1)^(n - 1)* (2)^(2*n)*((2)^(2*n - 1)- 1)*BernoulliB[2*n],n*(2*n)!]*(z)^(2*n), {n, 1, Infinity}, GenerateConditions->None]</syntaxhighlight> || Failure || Failure || Manual Skip! || Successful [Tested: 6]
+| [https://dlmf.nist.gov/4.19.E9 4.19.E9] || <math qid="Q1688">\ln@{\frac{\tan@@{z}}{z}} = \sum_{n=1}^{\infty}\frac{(-1)^{n-1}2^{2n}(2^{2n-1}-1)\BernoullinumberB{2n}}{n(2n)!}z^{2n}</math><br><syntaxhighlight lang="tex" style="font-size: 75%;" inline>\ln@{\frac{\tan@@{z}}{z}} = \sum_{n=1}^{\infty}\frac{(-1)^{n-1}2^{2n}(2^{2n-1}-1)\BernoullinumberB{2n}}{n(2n)!}z^{2n}</syntaxhighlight> || <math>|z| < \frac{1}{2}\pi</math> || <syntaxhighlight lang=mathematica>ln((tan(z))/(z)) = sum(((- 1)^(n - 1)* (2)^(2*n)*((2)^(2*n - 1)- 1)*bernoulli(2*n))/(n*factorial(2*n))*(z)^(2*n), n = 1..infinity)</syntaxhighlight> || <syntaxhighlight lang=mathematica>Log[Divide[Tan[z],z]] == Sum[Divide[(- 1)^(n - 1)* (2)^(2*n)*((2)^(2*n - 1)- 1)*BernoulliB[2*n],n*(2*n)!]*(z)^(2*n), {n, 1, Infinity}, GenerateConditions->None]</syntaxhighlight> || Failure || Failure || Manual Skip! || Successful [Tested: 6]
 |}
 </div>

4.19: Difference between revisions

Latest revision as of 11:06, 28 June 2021

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