3.11.100 \(\int \frac {(a+b x)^{10} (A+B x)}{(d+e x)^{12}} \, dx\) [1100]

Optimal. Leaf size=321 \[ -\frac {(B d-A e) (a+b x)^{11}}{11 e (b d-a e) (d+e x)^{11}}-\frac {B (b d-a e)^{10}}{10 e^{12} (d+e x)^{10}}+\frac {10 b B (b d-a e)^9}{9 e^{12} (d+e x)^9}-\frac {45 b^2 B (b d-a e)^8}{8 e^{12} (d+e x)^8}+\frac {120 b^3 B (b d-a e)^7}{7 e^{12} (d+e x)^7}-\frac {35 b^4 B (b d-a e)^6}{e^{12} (d+e x)^6}+\frac {252 b^5 B (b d-a e)^5}{5 e^{12} (d+e x)^5}-\frac {105 b^6 B (b d-a e)^4}{2 e^{12} (d+e x)^4}+\frac {40 b^7 B (b d-a e)^3}{e^{12} (d+e x)^3}-\frac {45 b^8 B (b d-a e)^2}{2 e^{12} (d+e x)^2}+\frac {10 b^9 B (b d-a e)}{e^{12} (d+e x)}+\frac {b^{10} B \log (d+e x)}{e^{12}} \]

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Rubi [A]
time = 0.39, antiderivative size = 321, normalized size of antiderivative = 1.00, number of steps used = 3, number of rules used = 2, integrand size = 20, \(\frac {\text {number of rules}}{\text {integrand size}}\) = 0.100, Rules used = {79, 45} \begin {gather*} -\frac {(a+b x)^{11} (B d-A e)}{11 e (d+e x)^{11} (b d-a e)}+\frac {10 b^9 B (b d-a e)}{e^{12} (d+e x)}-\frac {45 b^8 B (b d-a e)^2}{2 e^{12} (d+e x)^2}+\frac {40 b^7 B (b d-a e)^3}{e^{12} (d+e x)^3}-\frac {105 b^6 B (b d-a e)^4}{2 e^{12} (d+e x)^4}+\frac {252 b^5 B (b d-a e)^5}{5 e^{12} (d+e x)^5}-\frac {35 b^4 B (b d-a e)^6}{e^{12} (d+e x)^6}+\frac {120 b^3 B (b d-a e)^7}{7 e^{12} (d+e x)^7}-\frac {45 b^2 B (b d-a e)^8}{8 e^{12} (d+e x)^8}+\frac {10 b B (b d-a e)^9}{9 e^{12} (d+e x)^9}-\frac {B (b d-a e)^{10}}{10 e^{12} (d+e x)^{10}}+\frac {b^{10} B \log (d+e x)}{e^{12}} \end {gather*}

Antiderivative was successfully verified.

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Rule 45

Rule 79

Rubi steps

\begin {align*} \int \frac {(a+b x)^{10} (A+B x)}{(d+e x)^{12}} \, dx &=-\frac {(B d-A e) (a+b x)^{11}}{11 e (b d-a e) (d+e x)^{11}}+\frac {B \int \frac {(a+b x)^{10}}{(d+e x)^{11}} \, dx}{e}\\ &=-\frac {(B d-A e) (a+b x)^{11}}{11 e (b d-a e) (d+e x)^{11}}+\frac {B \int \left (\frac {(-b d+a e)^{10}}{e^{10} (d+e x)^{11}}-\frac {10 b (b d-a e)^9}{e^{10} (d+e x)^{10}}+\frac {45 b^2 (b d-a e)^8}{e^{10} (d+e x)^9}-\frac {120 b^3 (b d-a e)^7}{e^{10} (d+e x)^8}+\frac {210 b^4 (b d-a e)^6}{e^{10} (d+e x)^7}-\frac {252 b^5 (b d-a e)^5}{e^{10} (d+e x)^6}+\frac {210 b^6 (b d-a e)^4}{e^{10} (d+e x)^5}-\frac {120 b^7 (b d-a e)^3}{e^{10} (d+e x)^4}+\frac {45 b^8 (b d-a e)^2}{e^{10} (d+e x)^3}-\frac {10 b^9 (b d-a e)}{e^{10} (d+e x)^2}+\frac {b^{10}}{e^{10} (d+e x)}\right ) \, dx}{e}\\ &=-\frac {(B d-A e) (a+b x)^{11}}{11 e (b d-a e) (d+e x)^{11}}-\frac {B (b d-a e)^{10}}{10 e^{12} (d+e x)^{10}}+\frac {10 b B (b d-a e)^9}{9 e^{12} (d+e x)^9}-\frac {45 b^2 B (b d-a e)^8}{8 e^{12} (d+e x)^8}+\frac {120 b^3 B (b d-a e)^7}{7 e^{12} (d+e x)^7}-\frac {35 b^4 B (b d-a e)^6}{e^{12} (d+e x)^6}+\frac {252 b^5 B (b d-a e)^5}{5 e^{12} (d+e x)^5}-\frac {105 b^6 B (b d-a e)^4}{2 e^{12} (d+e x)^4}+\frac {40 b^7 B (b d-a e)^3}{e^{12} (d+e x)^3}-\frac {45 b^8 B (b d-a e)^2}{2 e^{12} (d+e x)^2}+\frac {10 b^9 B (b d-a e)}{e^{12} (d+e x)}+\frac {b^{10} B \log (d+e x)}{e^{12}}\\ \end {align*}

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Mathematica [B] Leaf count is larger than twice the leaf count of optimal. \(1443\) vs. \(2(321)=642\).
time = 1.08, size = 1443, normalized size = 4.50 \begin {gather*} -\frac {252 a^{10} e^{10} (10 A e+B (d+11 e x))+280 a^9 b e^9 \left (9 A e (d+11 e x)+2 B \left (d^2+11 d e x+55 e^2 x^2\right )\right )+315 a^8 b^2 e^8 \left (8 A e \left (d^2+11 d e x+55 e^2 x^2\right )+3 B \left (d^3+11 d^2 e x+55 d e^2 x^2+165 e^3 x^3\right )\right )+360 a^7 b^3 e^7 \left (7 A e \left (d^3+11 d^2 e x+55 d e^2 x^2+165 e^3 x^3\right )+4 B \left (d^4+11 d^3 e x+55 d^2 e^2 x^2+165 d e^3 x^3+330 e^4 x^4\right )\right )+420 a^6 b^4 e^6 \left (6 A e \left (d^4+11 d^3 e x+55 d^2 e^2 x^2+165 d e^3 x^3+330 e^4 x^4\right )+5 B \left (d^5+11 d^4 e x+55 d^3 e^2 x^2+165 d^2 e^3 x^3+330 d e^4 x^4+462 e^5 x^5\right )\right )+504 a^5 b^5 e^5 \left (5 A e \left (d^5+11 d^4 e x+55 d^3 e^2 x^2+165 d^2 e^3 x^3+330 d e^4 x^4+462 e^5 x^5\right )+6 B \left (d^6+11 d^5 e x+55 d^4 e^2 x^2+165 d^3 e^3 x^3+330 d^2 e^4 x^4+462 d e^5 x^5+462 e^6 x^6\right )\right )+630 a^4 b^6 e^4 \left (4 A e \left (d^6+11 d^5 e x+55 d^4 e^2 x^2+165 d^3 e^3 x^3+330 d^2 e^4 x^4+462 d e^5 x^5+462 e^6 x^6\right )+7 B \left (d^7+11 d^6 e x+55 d^5 e^2 x^2+165 d^4 e^3 x^3+330 d^3 e^4 x^4+462 d^2 e^5 x^5+462 d e^6 x^6+330 e^7 x^7\right )\right )+840 a^3 b^7 e^3 \left (3 A e \left (d^7+11 d^6 e x+55 d^5 e^2 x^2+165 d^4 e^3 x^3+330 d^3 e^4 x^4+462 d^2 e^5 x^5+462 d e^6 x^6+330 e^7 x^7\right )+8 B \left (d^8+11 d^7 e x+55 d^6 e^2 x^2+165 d^5 e^3 x^3+330 d^4 e^4 x^4+462 d^3 e^5 x^5+462 d^2 e^6 x^6+330 d e^7 x^7+165 e^8 x^8\right )\right )+1260 a^2 b^8 e^2 \left (2 A e \left (d^8+11 d^7 e x+55 d^6 e^2 x^2+165 d^5 e^3 x^3+330 d^4 e^4 x^4+462 d^3 e^5 x^5+462 d^2 e^6 x^6+330 d e^7 x^7+165 e^8 x^8\right )+9 B \left (d^9+11 d^8 e x+55 d^7 e^2 x^2+165 d^6 e^3 x^3+330 d^5 e^4 x^4+462 d^4 e^5 x^5+462 d^3 e^6 x^6+330 d^2 e^7 x^7+165 d e^8 x^8+55 e^9 x^9\right )\right )+2520 a b^9 e \left (A e \left (d^9+11 d^8 e x+55 d^7 e^2 x^2+165 d^6 e^3 x^3+330 d^5 e^4 x^4+462 d^4 e^5 x^5+462 d^3 e^6 x^6+330 d^2 e^7 x^7+165 d e^8 x^8+55 e^9 x^9\right )+10 B \left (d^{10}+11 d^9 e x+55 d^8 e^2 x^2+165 d^7 e^3 x^3+330 d^6 e^4 x^4+462 d^5 e^5 x^5+462 d^4 e^6 x^6+330 d^3 e^7 x^7+165 d^2 e^8 x^8+55 d e^9 x^9+11 e^{10} x^{10}\right )\right )+b^{10} \left (2520 A e \left (d^{10}+11 d^9 e x+55 d^8 e^2 x^2+165 d^7 e^3 x^3+330 d^6 e^4 x^4+462 d^5 e^5 x^5+462 d^4 e^6 x^6+330 d^3 e^7 x^7+165 d^2 e^8 x^8+55 d e^9 x^9+11 e^{10} x^{10}\right )-B d \left (83711 d^{10}+893101 d^9 e x+4313045 d^8 e^2 x^2+12430935 d^7 e^3 x^3+23718420 d^6 e^4 x^4+31376268 d^5 e^5 x^5+29241828 d^4 e^6 x^6+19057500 d^3 e^7 x^7+8385300 d^2 e^8 x^8+2286900 d e^9 x^9+304920 e^{10} x^{10}\right )\right )-27720 b^{10} B (d+e x)^{11} \log (d+e x)}{27720 e^{12} (d+e x)^{11}} \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. \(1939\) vs. \(2(305)=610\).
time = 0.09, size = 1940, normalized size = 6.04

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. 1950 vs. \(2 (317) = 634\).
time = 0.41, size = 1950, normalized size = 6.07 \begin {gather*} \text {Too large to display} \end {gather*}

Verification of antiderivative is not currently implemented for this CAS.

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Fricas [B] Leaf count of result is larger than twice the leaf count of optimal. 2013 vs. \(2 (317) = 634\).
time = 0.99, size = 2013, normalized size = 6.27 \begin {gather*} \text {Too large to display} \end {gather*}

Verification of antiderivative is not currently implemented for this CAS.

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Sympy [F(-1)] Timed out
time = 0.00, size = 0, normalized size = 0.00 \begin {gather*} \text {Timed out} \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. 1843 vs. \(2 (317) = 634\).
time = 0.96, size = 1843, normalized size = 5.74 \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 = 1.71, size = 2446, normalized size = 7.62 \begin {gather*} \text {Too large to display} \end {gather*}

Verification of antiderivative is not currently implemented for this CAS.

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