3.1.12 \(\int (a g+b g x) (c i+d i x)^2 (A+B \log (\frac {e (a+b x)}{c+d x})) \, dx\) [12]

Optimal. Leaf size=239 \[ \frac {B (b c-a d)^3 g i^2 x}{12 b^2 d}+\frac {B (b c-a d)^2 g i^2 (c+d x)^2}{24 b d^2}-\frac {B (b c-a d) g i^2 (c+d x)^3}{12 d^2}+\frac {B (b c-a d)^4 g i^2 \log \left (\frac {a+b x}{c+d x}\right )}{12 b^3 d^2}-\frac {(b c-a d) g i^2 (c+d x)^3 \left (A+B \log \left (\frac {e (a+b x)}{c+d x}\right )\right )}{3 d^2}+\frac {b g i^2 (c+d x)^4 \left (A+B \log \left (\frac {e (a+b x)}{c+d x}\right )\right )}{4 d^2}+\frac {B (b c-a d)^4 g i^2 \log (c+d x)}{12 b^3 d^2} \]

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Rubi [A]
time = 0.14, antiderivative size = 239, normalized size of antiderivative = 1.00, number of steps used = 5, number of rules used = 5, integrand size = 38, \(\frac {\text {number of rules}}{\text {integrand size}}\) = 0.132, Rules used = {2562, 45, 2382, 12, 78} \begin {gather*} -\frac {g i^2 (c+d x)^3 (b c-a d) \left (B \log \left (\frac {e (a+b x)}{c+d x}\right )+A\right )}{3 d^2}+\frac {b g i^2 (c+d x)^4 \left (B \log \left (\frac {e (a+b x)}{c+d x}\right )+A\right )}{4 d^2}+\frac {B g i^2 (b c-a d)^4 \log \left (\frac {a+b x}{c+d x}\right )}{12 b^3 d^2}+\frac {B g i^2 (b c-a d)^4 \log (c+d x)}{12 b^3 d^2}+\frac {B g i^2 x (b c-a d)^3}{12 b^2 d}+\frac {B g i^2 (c+d x)^2 (b c-a d)^2}{24 b d^2}-\frac {B g i^2 (c+d x)^3 (b c-a d)}{12 d^2} \end {gather*}

Antiderivative was successfully verified.

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Rule 12

Rule 45

Rule 78

Rule 2382

Rule 2562

Rubi steps

\begin {align*} \int (12 c+12 d x)^2 (a g+b g x) \left (A+B \log \left (\frac {e (a+b x)}{c+d x}\right )\right ) \, dx &=\int \left (\frac {(-b c+a d) g (12 c+12 d x)^2 \left (A+B \log \left (\frac {e (a+b x)}{c+d x}\right )\right )}{d}+\frac {b g (12 c+12 d x)^3 \left (A+B \log \left (\frac {e (a+b x)}{c+d x}\right )\right )}{12 d}\right ) \, dx\\ &=\frac {(b g) \int (12 c+12 d x)^3 \left (A+B \log \left (\frac {e (a+b x)}{c+d x}\right )\right ) \, dx}{12 d}+\frac {((-b c+a d) g) \int (12 c+12 d x)^2 \left (A+B \log \left (\frac {e (a+b x)}{c+d x}\right )\right ) \, dx}{d}\\ &=-\frac {48 (b c-a d) g (c+d x)^3 \left (A+B \log \left (\frac {e (a+b x)}{c+d x}\right )\right )}{d^2}+\frac {36 b g (c+d x)^4 \left (A+B \log \left (\frac {e (a+b x)}{c+d x}\right )\right )}{d^2}-\frac {(b B g) \int \frac {20736 (b c-a d) (c+d x)^3}{a+b x} \, dx}{576 d^2}+\frac {(B (b c-a d) g) \int \frac {1728 (b c-a d) (c+d x)^2}{a+b x} \, dx}{36 d^2}\\ &=-\frac {48 (b c-a d) g (c+d x)^3 \left (A+B \log \left (\frac {e (a+b x)}{c+d x}\right )\right )}{d^2}+\frac {36 b g (c+d x)^4 \left (A+B \log \left (\frac {e (a+b x)}{c+d x}\right )\right )}{d^2}-\frac {(36 b B (b c-a d) g) \int \frac {(c+d x)^3}{a+b x} \, dx}{d^2}+\frac {\left (48 B (b c-a d)^2 g\right ) \int \frac {(c+d x)^2}{a+b x} \, dx}{d^2}\\ &=-\frac {48 (b c-a d) g (c+d x)^3 \left (A+B \log \left (\frac {e (a+b x)}{c+d x}\right )\right )}{d^2}+\frac {36 b g (c+d x)^4 \left (A+B \log \left (\frac {e (a+b x)}{c+d x}\right )\right )}{d^2}-\frac {(36 b B (b c-a d) g) \int \left (\frac {d (b c-a d)^2}{b^3}+\frac {(b c-a d)^3}{b^3 (a+b x)}+\frac {d (b c-a d) (c+d x)}{b^2}+\frac {d (c+d x)^2}{b}\right ) \, dx}{d^2}+\frac {\left (48 B (b c-a d)^2 g\right ) \int \left (\frac {d (b c-a d)}{b^2}+\frac {(b c-a d)^2}{b^2 (a+b x)}+\frac {d (c+d x)}{b}\right ) \, dx}{d^2}\\ &=\frac {12 B (b c-a d)^3 g x}{b^2 d}+\frac {6 B (b c-a d)^2 g (c+d x)^2}{b d^2}-\frac {12 B (b c-a d) g (c+d x)^3}{d^2}+\frac {12 B (b c-a d)^4 g \log (a+b x)}{b^3 d^2}-\frac {48 (b c-a d) g (c+d x)^3 \left (A+B \log \left (\frac {e (a+b x)}{c+d x}\right )\right )}{d^2}+\frac {36 b g (c+d x)^4 \left (A+B \log \left (\frac {e (a+b x)}{c+d x}\right )\right )}{d^2}\\ \end {align*}

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Mathematica [A]
time = 0.13, size = 216, normalized size = 0.90 \begin {gather*} \frac {g i^2 \left (\frac {4 B (b c-a d)^2 \left (2 b d (b c-a d) x+b^2 (c+d x)^2+2 (b c-a d)^2 \log (a+b x)\right )}{b^3}-\frac {B (b c-a d) \left (6 b d (b c-a d)^2 x+3 b^2 (b c-a d) (c+d x)^2+2 b^3 (c+d x)^3+6 (b c-a d)^3 \log (a+b x)\right )}{b^3}-8 (b c-a d) (c+d x)^3 \left (A+B \log \left (\frac {e (a+b x)}{c+d x}\right )\right )+6 b (c+d x)^4 \left (A+B \log \left (\frac {e (a+b x)}{c+d x}\right )\right )\right )}{24 d^2} \end {gather*}

Antiderivative was successfully verified.

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Maple [B] Leaf count of result is larger than twice the leaf count of optimal. \(4029\) vs. \(2(225)=450\).
time = 0.59, size = 4030, normalized size = 16.86

Verification of antiderivative is not currently implemented for this CAS.

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Maxima [B] Leaf count of result is larger than twice the leaf count of optimal. 651 vs. \(2 (206) = 412\).
time = 0.30, size = 651, normalized size = 2.72 \begin {gather*} -\frac {1}{4} \, A b d^{2} g x^{4} - \frac {2}{3} \, A b c d g x^{3} - \frac {1}{3} \, A a d^{2} g x^{3} - \frac {1}{2} \, A b c^{2} g x^{2} - A a c d g x^{2} - {\left (x \log \left (\frac {b x e}{d x + c} + \frac {a e}{d x + c}\right ) + \frac {a \log \left (b x + a\right )}{b} - \frac {c \log \left (d x + c\right )}{d}\right )} B a c^{2} g - \frac {1}{2} \, {\left (x^{2} \log \left (\frac {b x e}{d x + c} + \frac {a e}{d x + c}\right ) - \frac {a^{2} \log \left (b x + a\right )}{b^{2}} + \frac {c^{2} \log \left (d x + c\right )}{d^{2}} - \frac {{\left (b c - a d\right )} x}{b d}\right )} B b c^{2} g - {\left (x^{2} \log \left (\frac {b x e}{d x + c} + \frac {a e}{d x + c}\right ) - \frac {a^{2} \log \left (b x + a\right )}{b^{2}} + \frac {c^{2} \log \left (d x + c\right )}{d^{2}} - \frac {{\left (b c - a d\right )} x}{b d}\right )} B a c d g - \frac {1}{3} \, {\left (2 \, x^{3} \log \left (\frac {b x e}{d x + c} + \frac {a e}{d x + c}\right ) + \frac {2 \, a^{3} \log \left (b x + a\right )}{b^{3}} - \frac {2 \, c^{3} \log \left (d x + c\right )}{d^{3}} - \frac {{\left (b^{2} c d - a b d^{2}\right )} x^{2} - 2 \, {\left (b^{2} c^{2} - a^{2} d^{2}\right )} x}{b^{2} d^{2}}\right )} B b c d g - \frac {1}{6} \, {\left (2 \, x^{3} \log \left (\frac {b x e}{d x + c} + \frac {a e}{d x + c}\right ) + \frac {2 \, a^{3} \log \left (b x + a\right )}{b^{3}} - \frac {2 \, c^{3} \log \left (d x + c\right )}{d^{3}} - \frac {{\left (b^{2} c d - a b d^{2}\right )} x^{2} - 2 \, {\left (b^{2} c^{2} - a^{2} d^{2}\right )} x}{b^{2} d^{2}}\right )} B a d^{2} g - \frac {1}{24} \, {\left (6 \, x^{4} \log \left (\frac {b x e}{d x + c} + \frac {a e}{d x + c}\right ) - \frac {6 \, a^{4} \log \left (b x + a\right )}{b^{4}} + \frac {6 \, c^{4} \log \left (d x + c\right )}{d^{4}} - \frac {2 \, {\left (b^{3} c d^{2} - a b^{2} d^{3}\right )} x^{3} - 3 \, {\left (b^{3} c^{2} d - a^{2} b d^{3}\right )} x^{2} + 6 \, {\left (b^{3} c^{3} - a^{3} d^{3}\right )} x}{b^{3} d^{3}}\right )} B b d^{2} g - A a c^{2} g x \end {gather*}

Verification of antiderivative is not currently implemented for this CAS.

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Fricas [A]
time = 0.43, size = 344, normalized size = 1.44 \begin {gather*} -\frac {6 \, A b^{4} d^{4} g x^{4} + 2 \, {\left ({\left (8 \, A - B\right )} b^{4} c d^{3} + {\left (4 \, A + B\right )} a b^{3} d^{4}\right )} g x^{3} + {\left ({\left (12 \, A - 5 \, B\right )} b^{4} c^{2} d^{2} + 4 \, {\left (6 \, A + B\right )} a b^{3} c d^{3} + B a^{2} b^{2} d^{4}\right )} g x^{2} - 2 \, {\left (B b^{4} c^{3} d - 2 \, {\left (6 \, A - B\right )} a b^{3} c^{2} d^{2} - 4 \, B a^{2} b^{2} c d^{3} + B a^{3} b d^{4}\right )} g x + 2 \, {\left (6 \, B a^{2} b^{2} c^{2} d^{2} - 4 \, B a^{3} b c d^{3} + B a^{4} d^{4}\right )} g \log \left (\frac {b x + a}{b}\right ) + 2 \, {\left (B b^{4} c^{4} - 4 \, B a b^{3} c^{3} d\right )} g \log \left (\frac {d x + c}{d}\right ) + 2 \, {\left (3 \, B b^{4} d^{4} g x^{4} + 12 \, B a b^{3} c^{2} d^{2} g x + 4 \, {\left (2 \, B b^{4} c d^{3} + B a b^{3} d^{4}\right )} g x^{3} + 6 \, {\left (B b^{4} c^{2} d^{2} + 2 \, B a b^{3} c d^{3}\right )} g x^{2}\right )} \log \left (\frac {{\left (b x + a\right )} e}{d x + c}\right )}{24 \, b^{3} d^{2}} \end {gather*}

Verification of antiderivative is not currently implemented for this CAS.

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Sympy [B] Leaf count of result is larger than twice the leaf count of optimal. 850 vs. \(2 (221) = 442\).
time = 2.77, size = 850, normalized size = 3.56 \begin {gather*} \frac {A b d^{2} g i^{2} x^{4}}{4} + \frac {B a^{2} g i^{2} \left (a^{2} d^{2} - 4 a b c d + 6 b^{2} c^{2}\right ) \log {\left (x + \frac {B a^{4} c d^{3} g i^{2} - 4 B a^{3} b c^{2} d^{2} g i^{2} + \frac {B a^{3} d^{2} g i^{2} \left (a^{2} d^{2} - 4 a b c d + 6 b^{2} c^{2}\right )}{b} + 10 B a^{2} b^{2} c^{3} d g i^{2} - B a^{2} c d g i^{2} \left (a^{2} d^{2} - 4 a b c d + 6 b^{2} c^{2}\right ) - B a b^{3} c^{4} g i^{2}}{B a^{4} d^{4} g i^{2} - 4 B a^{3} b c d^{3} g i^{2} + 6 B a^{2} b^{2} c^{2} d^{2} g i^{2} + 4 B a b^{3} c^{3} d g i^{2} - B b^{4} c^{4} g i^{2}} \right )}}{12 b^{3}} - \frac {B c^{3} g i^{2} \cdot \left (4 a d - b c\right ) \log {\left (x + \frac {B a^{4} c d^{3} g i^{2} - 4 B a^{3} b c^{2} d^{2} g i^{2} + 10 B a^{2} b^{2} c^{3} d g i^{2} - B a b^{3} c^{4} g i^{2} - B a b^{2} c^{3} g i^{2} \cdot \left (4 a d - b c\right ) + \frac {B b^{3} c^{4} g i^{2} \cdot \left (4 a d - b c\right )}{d}}{B a^{4} d^{4} g i^{2} - 4 B a^{3} b c d^{3} g i^{2} + 6 B a^{2} b^{2} c^{2} d^{2} g i^{2} + 4 B a b^{3} c^{3} d g i^{2} - B b^{4} c^{4} g i^{2}} \right )}}{12 d^{2}} + x^{3} \left (\frac {A a d^{2} g i^{2}}{3} + \frac {2 A b c d g i^{2}}{3} + \frac {B a d^{2} g i^{2}}{12} - \frac {B b c d g i^{2}}{12}\right ) + x^{2} \left (A a c d g i^{2} + \frac {A b c^{2} g i^{2}}{2} + \frac {B a^{2} d^{2} g i^{2}}{24 b} + \frac {B a c d g i^{2}}{6} - \frac {5 B b c^{2} g i^{2}}{24}\right ) + x \left (A a c^{2} g i^{2} - \frac {B a^{3} d^{2} g i^{2}}{12 b^{2}} + \frac {B a^{2} c d g i^{2}}{3 b} - \frac {B a c^{2} g i^{2}}{6} - \frac {B b c^{3} g i^{2}}{12 d}\right ) + \left (B a c^{2} g i^{2} x + B a c d g i^{2} x^{2} + \frac {B a d^{2} g i^{2} x^{3}}{3} + \frac {B b c^{2} g i^{2} x^{2}}{2} + \frac {2 B b c d g i^{2} x^{3}}{3} + \frac {B b d^{2} g i^{2} x^{4}}{4}\right ) \log {\left (\frac {e \left (a + b x\right )}{c + d x} \right )} \end {gather*}

Verification of antiderivative is not currently implemented for this CAS.

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Giac [B] Leaf count of result is larger than twice the leaf count of optimal. 3856 vs. \(2 (206) = 412\).
time = 3.76, size = 3856, normalized size = 16.13 \begin {gather*} \text {Too large to display} \end {gather*}

Verification of antiderivative is not currently implemented for this CAS.

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Mupad [B]
time = 5.00, size = 636, normalized size = 2.66 \begin {gather*} x^3\,\left (\frac {d\,g\,i^2\,\left (8\,A\,a\,d+12\,A\,b\,c+B\,a\,d-B\,b\,c\right )}{12}-\frac {A\,d\,g\,i^2\,\left (12\,a\,d+12\,b\,c\right )}{36}\right )-x^2\,\left (\frac {\left (\frac {d\,g\,i^2\,\left (8\,A\,a\,d+12\,A\,b\,c+B\,a\,d-B\,b\,c\right )}{4}-\frac {A\,d\,g\,i^2\,\left (12\,a\,d+12\,b\,c\right )}{12}\right )\,\left (12\,a\,d+12\,b\,c\right )}{24\,b\,d}-\frac {g\,i^2\,\left (3\,A\,a^2\,d^2+9\,A\,b^2\,c^2+B\,a^2\,d^2-2\,B\,b^2\,c^2+18\,A\,a\,b\,c\,d+B\,a\,b\,c\,d\right )}{6\,b}+\frac {A\,a\,c\,d\,g\,i^2}{2}\right )+\ln \left (\frac {e\,\left (a+b\,x\right )}{c+d\,x}\right )\,\left (B\,a\,c^2\,g\,i^2\,x+\frac {B\,c\,g\,i^2\,x^2\,\left (2\,a\,d+b\,c\right )}{2}+\frac {B\,d\,g\,i^2\,x^3\,\left (a\,d+2\,b\,c\right )}{3}+\frac {B\,b\,d^2\,g\,i^2\,x^4}{4}\right )+x\,\left (\frac {\left (12\,a\,d+12\,b\,c\right )\,\left (\frac {\left (\frac {d\,g\,i^2\,\left (8\,A\,a\,d+12\,A\,b\,c+B\,a\,d-B\,b\,c\right )}{4}-\frac {A\,d\,g\,i^2\,\left (12\,a\,d+12\,b\,c\right )}{12}\right )\,\left (12\,a\,d+12\,b\,c\right )}{12\,b\,d}-\frac {g\,i^2\,\left (3\,A\,a^2\,d^2+9\,A\,b^2\,c^2+B\,a^2\,d^2-2\,B\,b^2\,c^2+18\,A\,a\,b\,c\,d+B\,a\,b\,c\,d\right )}{3\,b}+A\,a\,c\,d\,g\,i^2\right )}{12\,b\,d}-\frac {a\,c\,\left (\frac {d\,g\,i^2\,\left (8\,A\,a\,d+12\,A\,b\,c+B\,a\,d-B\,b\,c\right )}{4}-\frac {A\,d\,g\,i^2\,\left (12\,a\,d+12\,b\,c\right )}{12}\right )}{b\,d}+\frac {c\,g\,i^2\,\left (6\,A\,a^2\,d^2+2\,A\,b^2\,c^2+2\,B\,a^2\,d^2-B\,b^2\,c^2+12\,A\,a\,b\,c\,d-B\,a\,b\,c\,d\right )}{2\,b\,d}\right )+\frac {\ln \left (a+b\,x\right )\,\left (B\,g\,a^4\,d^2\,i^2-4\,B\,g\,a^3\,b\,c\,d\,i^2+6\,B\,g\,a^2\,b^2\,c^2\,i^2\right )}{12\,b^3}+\frac {\ln \left (c+d\,x\right )\,\left (B\,b\,c^4\,g\,i^2-4\,B\,a\,c^3\,d\,g\,i^2\right )}{12\,d^2}+\frac {A\,b\,d^2\,g\,i^2\,x^4}{4} \end {gather*}

Verification of antiderivative is not currently implemented for this CAS.

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