3.155 \(\int \coth ^7(c+d x) (a+b \tanh ^2(c+d x))^2 \, dx\)

Optimal. Leaf size=92 \[ -\frac{a^2 \coth ^6(c+d x)}{6 d}-\frac{a (a+2 b) \coth ^4(c+d x)}{4 d}-\frac{(a+b)^2 \coth ^2(c+d x)}{2 d}+\frac{(a+b)^2 \log (\tanh (c+d x))}{d}+\frac{(a+b)^2 \log (\cosh (c+d x))}{d} \]

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Rubi [A]  time = 0.113083, antiderivative size = 92, normalized size of antiderivative = 1., number of steps used = 4, number of rules used = 3, integrand size = 23, \(\frac{\text{number of rules}}{\text{integrand size}}\) = 0.13, Rules used = {3670, 446, 88} \[ -\frac{a^2 \coth ^6(c+d x)}{6 d}-\frac{a (a+2 b) \coth ^4(c+d x)}{4 d}-\frac{(a+b)^2 \coth ^2(c+d x)}{2 d}+\frac{(a+b)^2 \log (\tanh (c+d x))}{d}+\frac{(a+b)^2 \log (\cosh (c+d x))}{d} \]

Antiderivative was successfully verified.

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Rule 3670

Rule 446

Rule 88

Rubi steps

\begin{align*} \int \coth ^7(c+d x) \left (a+b \tanh ^2(c+d x)\right )^2 \, dx &=\frac{\operatorname{Subst}\left (\int \frac{\left (a+b x^2\right )^2}{x^7 \left (1-x^2\right )} \, dx,x,\tanh (c+d x)\right )}{d}\\ &=\frac{\operatorname{Subst}\left (\int \frac{(a+b x)^2}{(1-x) x^4} \, dx,x,\tanh ^2(c+d x)\right )}{2 d}\\ &=\frac{\operatorname{Subst}\left (\int \left (-\frac{(a+b)^2}{-1+x}+\frac{a^2}{x^4}+\frac{a (a+2 b)}{x^3}+\frac{(a+b)^2}{x^2}+\frac{(a+b)^2}{x}\right ) \, dx,x,\tanh ^2(c+d x)\right )}{2 d}\\ &=-\frac{(a+b)^2 \coth ^2(c+d x)}{2 d}-\frac{a (a+2 b) \coth ^4(c+d x)}{4 d}-\frac{a^2 \coth ^6(c+d x)}{6 d}+\frac{(a+b)^2 \log (\cosh (c+d x))}{d}+\frac{(a+b)^2 \log (\tanh (c+d x))}{d}\\ \end{align*}

Mathematica [A]  time = 0.484339, size = 74, normalized size = 0.8 \[ -\frac{2 a^2 \coth ^6(c+d x)+3 a (a+2 b) \coth ^4(c+d x)+6 (a+b)^2 \coth ^2(c+d x)-12 (a+b)^2 (\log (\tanh (c+d x))+\log (\cosh (c+d x)))}{12 d} \]

Antiderivative was successfully verified.

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Maple [A]  time = 0.059, size = 138, normalized size = 1.5 \begin{align*}{\frac{{a}^{2}\ln \left ( \sinh \left ( dx+c \right ) \right ) }{d}}-{\frac{{a}^{2} \left ({\rm coth} \left (dx+c\right ) \right ) ^{2}}{2\,d}}-{\frac{{a}^{2} \left ({\rm coth} \left (dx+c\right ) \right ) ^{4}}{4\,d}}-{\frac{{a}^{2} \left ({\rm coth} \left (dx+c\right ) \right ) ^{6}}{6\,d}}+2\,{\frac{ab\ln \left ( \sinh \left ( dx+c \right ) \right ) }{d}}-{\frac{ab \left ({\rm coth} \left (dx+c\right ) \right ) ^{2}}{d}}-{\frac{ab \left ({\rm coth} \left (dx+c\right ) \right ) ^{4}}{2\,d}}+{\frac{{b}^{2}\ln \left ( \sinh \left ( dx+c \right ) \right ) }{d}}-{\frac{{b}^{2} \left ({\rm coth} \left (dx+c\right ) \right ) ^{2}}{2\,d}} \end{align*}

Verification of antiderivative is not currently implemented for this CAS.

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Maxima [B]  time = 1.07226, size = 527, normalized size = 5.73 \begin{align*} \frac{1}{3} \, a^{2}{\left (3 \, x + \frac{3 \, c}{d} + \frac{3 \, \log \left (e^{\left (-d x - c\right )} + 1\right )}{d} + \frac{3 \, \log \left (e^{\left (-d x - c\right )} - 1\right )}{d} + \frac{2 \,{\left (9 \, e^{\left (-2 \, d x - 2 \, c\right )} - 18 \, e^{\left (-4 \, d x - 4 \, c\right )} + 34 \, e^{\left (-6 \, d x - 6 \, c\right )} - 18 \, e^{\left (-8 \, d x - 8 \, c\right )} + 9 \, e^{\left (-10 \, d x - 10 \, c\right )}\right )}}{d{\left (6 \, e^{\left (-2 \, d x - 2 \, c\right )} - 15 \, e^{\left (-4 \, d x - 4 \, c\right )} + 20 \, e^{\left (-6 \, d x - 6 \, c\right )} - 15 \, e^{\left (-8 \, d x - 8 \, c\right )} + 6 \, e^{\left (-10 \, d x - 10 \, c\right )} - e^{\left (-12 \, d x - 12 \, c\right )} - 1\right )}}\right )} + 2 \, a b{\left (x + \frac{c}{d} + \frac{\log \left (e^{\left (-d x - c\right )} + 1\right )}{d} + \frac{\log \left (e^{\left (-d x - c\right )} - 1\right )}{d} + \frac{4 \,{\left (e^{\left (-2 \, d x - 2 \, c\right )} - e^{\left (-4 \, d x - 4 \, c\right )} + e^{\left (-6 \, d x - 6 \, c\right )}\right )}}{d{\left (4 \, e^{\left (-2 \, d x - 2 \, c\right )} - 6 \, e^{\left (-4 \, d x - 4 \, c\right )} + 4 \, e^{\left (-6 \, d x - 6 \, c\right )} - e^{\left (-8 \, d x - 8 \, c\right )} - 1\right )}}\right )} + b^{2}{\left (x + \frac{c}{d} + \frac{\log \left (e^{\left (-d x - c\right )} + 1\right )}{d} + \frac{\log \left (e^{\left (-d x - c\right )} - 1\right )}{d} + \frac{2 \, e^{\left (-2 \, d x - 2 \, c\right )}}{d{\left (2 \, e^{\left (-2 \, d x - 2 \, c\right )} - e^{\left (-4 \, d x - 4 \, c\right )} - 1\right )}}\right )} \end{align*}

Verification of antiderivative is not currently implemented for this CAS.

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Fricas [B]  time = 2.45536, size = 8982, normalized size = 97.63 \begin{align*} \text{result too large to display} \end{align*}

Verification of antiderivative is not currently implemented for this CAS.

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Sympy [F(-1)]  time = 0., size = 0, normalized size = 0. \begin{align*} \text{Timed out} \end{align*}

Verification of antiderivative is not currently implemented for this CAS.

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Giac [B]  time = 1.30747, size = 263, normalized size = 2.86 \begin{align*} -\frac{{\left (a^{2} + 2 \, a b + b^{2}\right )}{\left (d x + c\right )}}{d} + \frac{{\left (a^{2} + 2 \, a b + b^{2}\right )} \log \left ({\left | e^{\left (2 \, d x + 2 \, c\right )} - 1 \right |}\right )}{d} - \frac{2 \,{\left (3 \,{\left (3 \, a^{2} + 4 \, a b + b^{2}\right )} e^{\left (10 \, d x + 10 \, c\right )} - 6 \,{\left (3 \, a^{2} + 6 \, a b + 2 \, b^{2}\right )} e^{\left (8 \, d x + 8 \, c\right )} + 2 \,{\left (17 \, a^{2} + 24 \, a b + 9 \, b^{2}\right )} e^{\left (6 \, d x + 6 \, c\right )} - 6 \,{\left (3 \, a^{2} + 6 \, a b + 2 \, b^{2}\right )} e^{\left (4 \, d x + 4 \, c\right )} + 3 \,{\left (3 \, a^{2} + 4 \, a b + b^{2}\right )} e^{\left (2 \, d x + 2 \, c\right )}\right )}}{3 \, d{\left (e^{\left (2 \, d x + 2 \, c\right )} - 1\right )}^{6}} \end{align*}

Verification of antiderivative is not currently implemented for this CAS.

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