∫ (d+exr)3(a+b log(cxn))________________

3.404 \(\int \frac {(d+e x^r)^3 (a+b \log (c x^n))}{x^8} \, dx\)

Optimal. Leaf size=183 \[ -\frac {d^3 \left (a+b \log \left (c x^n\right )\right )}{7 x^7}-\frac {3 d^2 e x^{r-7} \left (a+b \log \left (c x^n\right )\right )}{7-r}-\frac {3 d e^2 x^{2 r-7} \left (a+b \log \left (c x^n\right )\right )}{7-2 r}-\frac {e^3 x^{3 r-7} \left (a+b \log \left (c x^n\right )\right )}{7-3 r}-\frac {b d^3 n}{49 x^7}-\frac {3 b d^2 e n x^{r-7}}{(7-r)^2}-\frac {3 b d e^2 n x^{2 r-7}}{(7-2 r)^2}-\frac {b e^3 n x^{3 r-7}}{(7-3 r)^2} \]

[Out]

-1/49*b*d^3*n/x^7-3*b*d^2*e*n*x^(-7+r)/(7-r)^2-3*b*d*e^2*n*x^(-7+2*r)/(7-2*r)^2-b*e^3*n*x^(-7+3*r)/(7-3*r)^2-1

/7*d^3*(a+b*ln(c*x^n))/x^7-3*d^2*e*x^(-7+r)*(a+b*ln(c*x^n))/(7-r)-3*d*e^2*x^(-7+2*r)*(a+b*ln(c*x^n))/(7-2*r)-e

^3*x^(-7+3*r)*(a+b*ln(c*x^n))/(7-3*r)

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Rubi [A] time = 0.41, antiderivative size = 155, normalized size of antiderivative = 0.85, number of steps used = 4, number of rules used = 4, integrand size = 23, \(\frac {\text {number of rules}}{\text {integrand size}}\) = 0.174, Rules used = {270, 2334, 12, 14} \[ -\frac {1}{7} \left (\frac {21 d^2 e x^{r-7}}{7-r}+\frac {d^3}{x^7}+\frac {21 d e^2 x^{2 r-7}}{7-2 r}+\frac {7 e^3 x^{3 r-7}}{7-3 r}\right ) \left (a+b \log \left (c x^n\right )\right )-\frac {3 b d^2 e n x^{r-7}}{(7-r)^2}-\frac {b d^3 n}{49 x^7}-\frac {3 b d e^2 n x^{2 r-7}}{(7-2 r)^2}-\frac {b e^3 n x^{3 r-7}}{(7-3 r)^2} \]

Antiderivative was successfully veriﬁed.

[In]

Int[((d + e*x^r)^3*(a + b*Log[c*x^n]))/x^8,x]

[Out]

-(b*d^3*n)/(49*x^7) - (3*b*d^2*e*n*x^(-7 + r))/(7 - r)^2 - (3*b*d*e^2*n*x^(-7 + 2*r))/(7 - 2*r)^2 - (b*e^3*n*x

^(-7 + 3*r))/(7 - 3*r)^2 - ((d^3/x^7 + (21*d^2*e*x^(-7 + r))/(7 - r) + (21*d*e^2*x^(-7 + 2*r))/(7 - 2*r) + (7*

e^3*x^(-7 + 3*r))/(7 - 3*r))*(a + b*Log[c*x^n]))/7

Rule 12

Int[(a_)*(u_), x_Symbol] :> Dist[a, Int[u, x], x] /; FreeQ[a, x] && !MatchQ[u, (b_)*(v_) /; FreeQ[b, x]]

Rule 14

Int[(u_)*((c_.)*(x_))^(m_.), x_Symbol] :> Int[ExpandIntegrand[(c*x)^m*u, x], x] /; FreeQ[{c, m}, x] && SumQ[u]

&& !LinearQ[u, x] && !MatchQ[u, (a_) + (b_.)*(v_) /; FreeQ[{a, b}, x] && InverseFunctionQ[v]]

Rule 270

Int[((c_.)*(x_))^(m_.)*((a_) + (b_.)*(x_)^(n_))^(p_.), x_Symbol] :> Int[ExpandIntegrand[(c*x)^m*(a + b*x^n)^p,

x], x] /; FreeQ[{a, b, c, m, n}, x] && IGtQ[p, 0]

Rule 2334

Int[((a_.) + Log[(c_.)*(x_)^(n_.)]*(b_.))*(x_)^(m_.)*((d_) + (e_.)*(x_)^(r_.))^(q_.), x_Symbol] :> With[{u = I

ntHide[x^m*(d + e*x^r)^q, x]}, Simp[u*(a + b*Log[c*x^n]), x] - Dist[b*n, Int[SimplifyIntegrand[u/x, x], x], x]

] /; FreeQ[{a, b, c, d, e, n, r}, x] && IGtQ[q, 0] && IntegerQ[m] && !(EqQ[q, 1] && EqQ[m, -1])

Rubi steps

\begin {align*} \int \frac {\left (d+e x^r\right )^3 \left (a+b \log \left (c x^n\right )\right )}{x^8} \, dx &=-\frac {1}{7} \left (\frac {d^3}{x^7}+\frac {21 d^2 e x^{-7+r}}{7-r}+\frac {21 d e^2 x^{-7+2 r}}{7-2 r}+\frac {7 e^3 x^{-7+3 r}}{7-3 r}\right ) \left (a+b \log \left (c x^n\right )\right )-(b n) \int \frac {-d^3+\frac {21 d^2 e x^r}{-7+r}+\frac {21 d e^2 x^{2 r}}{-7+2 r}+\frac {7 e^3 x^{3 r}}{-7+3 r}}{7 x^8} \, dx\\ &=-\frac {1}{7} \left (\frac {d^3}{x^7}+\frac {21 d^2 e x^{-7+r}}{7-r}+\frac {21 d e^2 x^{-7+2 r}}{7-2 r}+\frac {7 e^3 x^{-7+3 r}}{7-3 r}\right ) \left (a+b \log \left (c x^n\right )\right )-\frac {1}{7} (b n) \int \frac {-d^3+\frac {21 d^2 e x^r}{-7+r}+\frac {21 d e^2 x^{2 r}}{-7+2 r}+\frac {7 e^3 x^{3 r}}{-7+3 r}}{x^8} \, dx\\ &=-\frac {1}{7} \left (\frac {d^3}{x^7}+\frac {21 d^2 e x^{-7+r}}{7-r}+\frac {21 d e^2 x^{-7+2 r}}{7-2 r}+\frac {7 e^3 x^{-7+3 r}}{7-3 r}\right ) \left (a+b \log \left (c x^n\right )\right )-\frac {1}{7} (b n) \int \left (-\frac {d^3}{x^8}+\frac {21 d^2 e x^{-8+r}}{-7+r}+\frac {21 d e^2 x^{2 (-4+r)}}{-7+2 r}+\frac {7 e^3 x^{-8+3 r}}{-7+3 r}\right ) \, dx\\ &=-\frac {b d^3 n}{49 x^7}-\frac {3 b d^2 e n x^{-7+r}}{(7-r)^2}-\frac {3 b d e^2 n x^{-7+2 r}}{(7-2 r)^2}-\frac {b e^3 n x^{-7+3 r}}{(7-3 r)^2}-\frac {1}{7} \left (\frac {d^3}{x^7}+\frac {21 d^2 e x^{-7+r}}{7-r}+\frac {21 d e^2 x^{-7+2 r}}{7-2 r}+\frac {7 e^3 x^{-7+3 r}}{7-3 r}\right ) \left (a+b \log \left (c x^n\right )\right )\\ \end {align*}

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Mathematica [A] time = 0.41, size = 188, normalized size = 1.03 \[ \frac {7 a \left (-d^3+\frac {21 d^2 e x^r}{r-7}+\frac {21 d e^2 x^{2 r}}{2 r-7}+\frac {7 e^3 x^{3 r}}{3 r-7}\right )+7 b \log \left (c x^n\right ) \left (-d^3+\frac {21 d^2 e x^r}{r-7}+\frac {21 d e^2 x^{2 r}}{2 r-7}+\frac {7 e^3 x^{3 r}}{3 r-7}\right )+b n \left (-d^3-\frac {147 d^2 e x^r}{(r-7)^2}-\frac {147 d e^2 x^{2 r}}{(7-2 r)^2}-\frac {49 e^3 x^{3 r}}{(7-3 r)^2}\right )}{49 x^7} \]

Antiderivative was successfully veriﬁed.

[In]

Integrate[((d + e*x^r)^3*(a + b*Log[c*x^n]))/x^8,x]

[Out]

(b*n*(-d^3 - (147*d^2*e*x^r)/(-7 + r)^2 - (147*d*e^2*x^(2*r))/(7 - 2*r)^2 - (49*e^3*x^(3*r))/(7 - 3*r)^2) + 7*

a*(-d^3 + (21*d^2*e*x^r)/(-7 + r) + (21*d*e^2*x^(2*r))/(-7 + 2*r) + (7*e^3*x^(3*r))/(-7 + 3*r)) + 7*b*(-d^3 +

(21*d^2*e*x^r)/(-7 + r) + (21*d*e^2*x^(2*r))/(-7 + 2*r) + (7*e^3*x^(3*r))/(-7 + 3*r))*Log[c*x^n])/(49*x^7)

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fricas [B] time = 0.44, size = 981, normalized size = 5.36 \[ \text {result too large to display} \]

Veriﬁcation of antiderivative is not currently implemented for this CAS.

[In]

integrate((d+e*x^r)^3*(a+b*log(c*x^n))/x^8,x, algorithm="fricas")

[Out]

-1/49*(36*(b*d^3*n + 7*a*d^3)*r^6 - 924*(b*d^3*n + 7*a*d^3)*r^5 + 117649*b*d^3*n + 9457*(b*d^3*n + 7*a*d^3)*r^

4 + 823543*a*d^3 - 49392*(b*d^3*n + 7*a*d^3)*r^3 + 139258*(b*d^3*n + 7*a*d^3)*r^2 - 201684*(b*d^3*n + 7*a*d^3)

*r - 49*(12*a*e^3*r^5 - 2401*b*e^3*n - 4*(b*e^3*n + 70*a*e^3)*r^4 - 16807*a*e^3 + 21*(4*b*e^3*n + 119*a*e^3)*r

^3 - 49*(13*b*e^3*n + 217*a*e^3)*r^2 + 1029*(2*b*e^3*n + 21*a*e^3)*r + (12*b*e^3*r^5 - 280*b*e^3*r^4 + 2499*b*

e^3*r^3 - 10633*b*e^3*r^2 + 21609*b*e^3*r - 16807*b*e^3)*log(c) + (12*b*e^3*n*r^5 - 280*b*e^3*n*r^4 + 2499*b*e

^3*n*r^3 - 10633*b*e^3*n*r^2 + 21609*b*e^3*n*r - 16807*b*e^3*n)*log(x))*x^(3*r) - 147*(18*a*d*e^2*r^5 - 2401*b

*d*e^2*n - 3*(3*b*d*e^2*n + 133*a*d*e^2)*r^4 - 16807*a*d*e^2 + 28*(6*b*d*e^2*n + 119*a*d*e^2)*r^3 - 98*(11*b*d

*e^2*n + 133*a*d*e^2)*r^2 + 686*(4*b*d*e^2*n + 35*a*d*e^2)*r + (18*b*d*e^2*r^5 - 399*b*d*e^2*r^4 + 3332*b*d*e^

2*r^3 - 13034*b*d*e^2*r^2 + 24010*b*d*e^2*r - 16807*b*d*e^2)*log(c) + (18*b*d*e^2*n*r^5 - 399*b*d*e^2*n*r^4 +

3332*b*d*e^2*n*r^3 - 13034*b*d*e^2*n*r^2 + 24010*b*d*e^2*n*r - 16807*b*d*e^2*n)*log(x))*x^(2*r) - 147*(36*a*d^

2*e*r^5 - 2401*b*d^2*e*n - 12*(3*b*d^2*e*n + 56*a*d^2*e)*r^4 - 16807*a*d^2*e + 7*(60*b*d^2*e*n + 679*a*d^2*e)*

r^3 - 49*(37*b*d^2*e*n + 329*a*d^2*e)*r^2 + 343*(10*b*d^2*e*n + 77*a*d^2*e)*r + (36*b*d^2*e*r^5 - 672*b*d^2*e*

r^4 + 4753*b*d^2*e*r^3 - 16121*b*d^2*e*r^2 + 26411*b*d^2*e*r - 16807*b*d^2*e)*log(c) + (36*b*d^2*e*n*r^5 - 672

*b*d^2*e*n*r^4 + 4753*b*d^2*e*n*r^3 - 16121*b*d^2*e*n*r^2 + 26411*b*d^2*e*n*r - 16807*b*d^2*e*n)*log(x))*x^r +

7*(36*b*d^3*r^6 - 924*b*d^3*r^5 + 9457*b*d^3*r^4 - 49392*b*d^3*r^3 + 139258*b*d^3*r^2 - 201684*b*d^3*r + 1176

49*b*d^3)*log(c) + 7*(36*b*d^3*n*r^6 - 924*b*d^3*n*r^5 + 9457*b*d^3*n*r^4 - 49392*b*d^3*n*r^3 + 139258*b*d^3*n

*r^2 - 201684*b*d^3*n*r + 117649*b*d^3*n)*log(x))/((36*r^6 - 924*r^5 + 9457*r^4 - 49392*r^3 + 139258*r^2 - 201

684*r + 117649)*x^7)

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giac [F] time = 0.00, size = 0, normalized size = 0.00 \[ \int \frac {{\left (e x^{r} + d\right )}^{3} {\left (b \log \left (c x^{n}\right ) + a\right )}}{x^{8}}\,{d x} \]

Veriﬁcation of antiderivative is not currently implemented for this CAS.

[In]

integrate((d+e*x^r)^3*(a+b*log(c*x^n))/x^8,x, algorithm="giac")

[Out]

integrate((e*x^r + d)^3*(b*log(c*x^n) + a)/x^8, x)

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maple [C] time = 0.51, size = 4031, normalized size = 22.03 \[ \text {output too large to display} \]

Veriﬁcation of antiderivative is not currently implemented for this CAS.

[In]

int((d+e*x^r)^3*(b*ln(c*x^n)+a)/x^8,x)

[Out]

-1/7*b*(-14*e^3*r^2*(x^r)^3-63*d*e^2*r^2*(x^r)^2+147*e^3*r*(x^r)^3+6*d^3*r^3-126*d^2*e*r^2*x^r+588*d*e^2*r*(x^

r)^2-343*e^3*(x^r)^3-77*d^3*r^2+735*d^2*e*r*x^r-1029*d*e^2*(x^r)^2+294*d^3*r-1029*d^2*e*x^r-343*d^3)/x^7/(-7+3

*r)/(2*r-7)/(r-7)*ln(x^n)-1/98*(98784*I*Pi*b*d^2*e*r^4*csgn(I*c*x^n)^2*csgn(I*c)*x^r-521017*I*Pi*b*e^3*r^2*csg

n(I*x^n)*csgn(I*c*x^n)*csgn(I*c)*(x^r)^3-698691*I*Pi*b*d^2*e*r^3*csgn(I*c*x^n)^2*csgn(I*c)*x^r+1915998*I*Pi*b*

d*e^2*r^2*csgn(I*x^n)*csgn(I*c*x^n)^2*(x^r)^2+1915998*I*Pi*b*d*e^2*r^2*csgn(I*c*x^n)^2*csgn(I*c)*(x^r)^2+12245

1*I*Pi*b*e^3*r^3*csgn(I*x^n)*csgn(I*c*x^n)*csgn(I*c)*(x^r)^3-12936*a*d^3*r^5+132398*a*d^3*r^4+72*b*d^3*n*r^6-1

848*b*d^3*n*r^5+18914*b*d^3*n*r^4+1647086*a*e^3*(x^r)^3+1647086*a*d^3+504*ln(c)*b*d^3*r^6-12936*ln(c)*b*d^3*r^

5+132398*ln(c)*b*d^3*r^4-691488*ln(c)*b*d^3*r^3+1949612*ln(c)*b*d^3*r^2-2823576*ln(c)*b*d^3*r+504*a*d^3*r^6+23

5298*b*d^3*n-1176*a*e^3*r^5*(x^r)^3+27440*a*e^3*r^4*(x^r)^3+1647086*ln(c)*b*e^3*(x^r)^3+235298*b*e^3*n*(x^r)^3

-244902*a*e^3*r^3*(x^r)^3+1042034*a*e^3*r^2*(x^r)^3-2117682*a*e^3*r*(x^r)^3+4941258*a*d*e^2*(x^r)^2+4941258*a*

d^2*e*x^r+1647086*b*d^3*ln(c)-98784*b*d^3*n*r^3+278516*b*d^3*n*r^2-403368*b*d^3*n*r-691488*a*d^3*r^3+1949612*a

*d^3*r^2-2823576*a*d^3*r-5292*I*Pi*b*d^2*e*r^5*csgn(I*x^n)*csgn(I*c*x^n)^2*x^r-5292*I*Pi*b*d^2*e*r^5*csgn(I*c*

x^n)^2*csgn(I*c)*x^r+58653*I*Pi*b*d*e^2*r^4*csgn(I*x^n)*csgn(I*c*x^n)^2*(x^r)^2+252*I*Pi*b*d^3*r^6*csgn(I*x^n)

*csgn(I*c*x^n)^2-345744*I*Pi*b*d^3*r^3*csgn(I*c*x^n)^2*csgn(I*c)+974806*I*Pi*b*d^3*r^2*csgn(I*c*x^n)^2*csgn(I*

c)-7058940*ln(c)*b*d*e^2*r*(x^r)^2-1397382*ln(c)*b*d^2*e*r^3*x^r+4739574*ln(c)*b*d^2*e*r^2*x^r-7764834*ln(c)*b

*d^2*e*r*x^r-979608*ln(c)*b*d*e^2*r^3*(x^r)^2+3831996*ln(c)*b*d*e^2*r^2*(x^r)^2-1008420*b*d^2*e*n*r*x^r+316932

*b*d*e^2*n*r^2*(x^r)^2+533022*b*d^2*e*n*r^2*x^r-2369787*I*Pi*b*d^2*e*r^2*csgn(I*x^n)*csgn(I*c*x^n)*csgn(I*c)*x

^r+58653*I*Pi*b*d*e^2*r^4*csgn(I*c*x^n)^2*csgn(I*c)*(x^r)^2+98784*I*Pi*b*d^2*e*r^4*csgn(I*x^n)*csgn(I*c*x^n)^2

*x^r-1058841*I*Pi*b*e^3*r*csgn(I*x^n)*csgn(I*c*x^n)^2*(x^r)^3-1058841*I*Pi*b*e^3*r*csgn(I*c*x^n)^2*csgn(I*c)*(

x^r)^3-2369787*I*Pi*b*d^2*e*r^2*csgn(I*c*x^n)^3*x^r+3529470*I*Pi*b*d*e^2*r*csgn(I*c*x^n)^3*(x^r)^2-489804*I*Pi

*b*d*e^2*r^3*csgn(I*x^n)*csgn(I*c*x^n)^2*(x^r)^2-489804*I*Pi*b*d*e^2*r^3*csgn(I*c*x^n)^2*csgn(I*c)*(x^r)^2-264

6*I*Pi*b*d*e^2*r^5*csgn(I*c*x^n)^2*csgn(I*c)*(x^r)^2-823543*I*Pi*b*d^3*csgn(I*c*x^n)^3+823543*I*Pi*b*e^3*csgn(

I*x^n)*csgn(I*c*x^n)^2*(x^r)^3+1058841*I*Pi*b*e^3*r*csgn(I*c*x^n)^3*(x^r)^3-521017*I*Pi*b*e^3*r^2*csgn(I*c*x^n

)^3*(x^r)^3+122451*I*Pi*b*e^3*r^3*csgn(I*c*x^n)^3*(x^r)^3+705894*b*d^2*e*n*x^r-979608*a*d*e^2*r^3*(x^r)^2+3831

996*a*d*e^2*r^2*(x^r)^2-7058940*a*d*e^2*r*(x^r)^2-1397382*a*d^2*e*r^3*x^r+4739574*a*d^2*e*r^2*x^r+345744*I*Pi*

b*d^3*r^3*csgn(I*x^n)*csgn(I*c*x^n)*csgn(I*c)+521017*I*Pi*b*e^3*r^2*csgn(I*c*x^n)^2*csgn(I*c)*(x^r)^3+698691*I

*Pi*b*d^2*e*r^3*csgn(I*c*x^n)^3*x^r-1915998*I*Pi*b*d*e^2*r^2*csgn(I*c*x^n)^3*(x^r)^2-3529470*I*Pi*b*d*e^2*r*cs

gn(I*x^n)*csgn(I*c*x^n)^2*(x^r)^2-2646*I*Pi*b*d*e^2*r^5*csgn(I*x^n)*csgn(I*c*x^n)^2*(x^r)^2-2470629*I*Pi*b*d*e

^2*csgn(I*x^n)*csgn(I*c*x^n)*csgn(I*c)*(x^r)^2-2470629*I*Pi*b*d^2*e*csgn(I*c*x^n)^3*x^r+588*I*Pi*b*e^3*r^5*csg

n(I*c*x^n)^3*(x^r)^3-13720*I*Pi*b*e^3*r^4*csgn(I*c*x^n)^3*(x^r)^3-6468*I*Pi*b*d^3*r^5*csgn(I*c*x^n)^2*csgn(I*c

)-345744*I*Pi*b*d^3*r^3*csgn(I*x^n)*csgn(I*c*x^n)^2-1411788*I*Pi*b*d^3*r*csgn(I*x^n)*csgn(I*c*x^n)^2-1411788*I

*Pi*b*d^3*r*csgn(I*c*x^n)^2*csgn(I*c)-823543*I*Pi*b*d^3*csgn(I*x^n)*csgn(I*c*x^n)*csgn(I*c)-698691*I*Pi*b*d^2*

e*r^3*csgn(I*x^n)*csgn(I*c*x^n)^2*x^r+1058841*I*Pi*b*e^3*r*csgn(I*x^n)*csgn(I*c*x^n)*csgn(I*c)*(x^r)^3+2369787

*I*Pi*b*d^2*e*r^2*csgn(I*x^n)*csgn(I*c*x^n)^2*x^r-13720*I*Pi*b*e^3*r^4*csgn(I*x^n)*csgn(I*c*x^n)*csgn(I*c)*(x^

r)^3+588*I*Pi*b*e^3*r^5*csgn(I*x^n)*csgn(I*c*x^n)*csgn(I*c)*(x^r)^3-3529470*I*Pi*b*d*e^2*r*csgn(I*c*x^n)^2*csg

n(I*c)*(x^r)^2-3882417*I*Pi*b*d^2*e*r*csgn(I*x^n)*csgn(I*c*x^n)^2*x^r-3882417*I*Pi*b*d^2*e*r*csgn(I*c*x^n)^2*c

sgn(I*c)*x^r-2470629*I*Pi*b*d^2*e*csgn(I*x^n)*csgn(I*c*x^n)*csgn(I*c)*x^r+2369787*I*Pi*b*d^2*e*r^2*csgn(I*c*x^

n)^2*csgn(I*c)*x^r-252*I*Pi*b*d^3*r^6*csgn(I*x^n)*csgn(I*c*x^n)*csgn(I*c)+6468*I*Pi*b*d^3*r^5*csgn(I*x^n)*csgn

(I*c*x^n)*csgn(I*c)-252*I*Pi*b*d^3*r^6*csgn(I*c*x^n)^3+6468*I*Pi*b*d^3*r^5*csgn(I*c*x^n)^3-66199*I*Pi*b*d^3*r^

4*csgn(I*c*x^n)^3+345744*I*Pi*b*d^3*r^3*csgn(I*c*x^n)^3+66199*I*Pi*b*d^3*r^4*csgn(I*x^n)*csgn(I*c*x^n)^2+66199

*I*Pi*b*d^3*r^4*csgn(I*c*x^n)^2*csgn(I*c)+823543*I*Pi*b*e^3*csgn(I*c*x^n)^2*csgn(I*c)*(x^r)^3+974806*I*Pi*b*d^

3*r^2*csgn(I*x^n)*csgn(I*c*x^n)^2+1411788*I*Pi*b*d^3*r*csgn(I*c*x^n)^3-823543*I*Pi*b*e^3*csgn(I*c*x^n)^3*(x^r)

^3+823543*I*Pi*b*d^3*csgn(I*x^n)*csgn(I*c*x^n)^2+823543*I*Pi*b*d^3*csgn(I*c*x^n)^2*csgn(I*c)-8232*b*e^3*n*r^3*

(x^r)^3-5292*a*d*e^2*r^5*(x^r)^2+117306*a*d*e^2*r^4*(x^r)^2-10584*a*d^2*e*r^5*x^r+197568*a*d^2*e*r^4*x^r+62426

*b*e^3*n*r^2*(x^r)^3-201684*b*e^3*n*r*(x^r)^3+705894*b*d*e^2*n*(x^r)^2+5292*I*Pi*b*d^2*e*r^5*csgn(I*x^n)*csgn(

I*c*x^n)*csgn(I*c)*x^r+392*b*e^3*n*r^4*(x^r)^3-7764834*a*d^2*e*r*x^r+4941258*ln(c)*b*d^2*e*x^r+4941258*ln(c)*b

*d*e^2*(x^r)^2-1176*ln(c)*b*e^3*r^5*(x^r)^3+27440*ln(c)*b*e^3*r^4*(x^r)^3-244902*ln(c)*b*e^3*r^3*(x^r)^3+10420

34*ln(c)*b*e^3*r^2*(x^r)^3-2117682*ln(c)*b*e^3*r*(x^r)^3-122451*I*Pi*b*e^3*r^3*csgn(I*c*x^n)^2*csgn(I*c)*(x^r)

^3+13720*I*Pi*b*e^3*r^4*csgn(I*c*x^n)^2*csgn(I*c)*(x^r)^3-974806*I*Pi*b*d^3*r^2*csgn(I*x^n)*csgn(I*c*x^n)*csgn

(I*c)-58653*I*Pi*b*d*e^2*r^4*csgn(I*x^n)*csgn(I*c*x^n)*csgn(I*c)*(x^r)^2-66199*I*Pi*b*d^3*r^4*csgn(I*x^n)*csgn

(I*c*x^n)*csgn(I*c)-974806*I*Pi*b*d^3*r^2*csgn(I*c*x^n)^3-58653*I*Pi*b*d*e^2*r^4*csgn(I*c*x^n)^3*(x^r)^2-82354

3*I*Pi*b*e^3*csgn(I*x^n)*csgn(I*c*x^n)*csgn(I*c)*(x^r)^3+2470629*I*Pi*b*d*e^2*csgn(I*x^n)*csgn(I*c*x^n)^2*(x^r

)^2+489804*I*Pi*b*d*e^2*r^3*csgn(I*c*x^n)^3*(x^r)^2-588*I*Pi*b*e^3*r^5*csgn(I*x^n)*csgn(I*c*x^n)^2*(x^r)^3-588

*I*Pi*b*e^3*r^5*csgn(I*c*x^n)^2*csgn(I*c)*(x^r)^3-806736*b*d*e^2*n*r*(x^r)^2-5292*ln(c)*b*d*e^2*r^5*(x^r)^2+11

7306*ln(c)*b*d*e^2*r^4*(x^r)^2-10584*ln(c)*b*d^2*e*r^5*x^r+197568*ln(c)*b*d^2*e*r^4*x^r+2646*b*d*e^2*n*r^4*(x^

r)^2-49392*b*d*e^2*n*r^3*(x^r)^2+10584*b*d^2*e*n*r^4*x^r-123480*b*d^2*e*n*r^3*x^r+252*I*Pi*b*d^3*r^6*csgn(I*c*

x^n)^2*csgn(I*c)-6468*I*Pi*b*d^3*r^5*csgn(I*x^n)*csgn(I*c*x^n)^2-2470629*I*Pi*b*d*e^2*csgn(I*c*x^n)^3*(x^r)^2+

3529470*I*Pi*b*d*e^2*r*csgn(I*x^n)*csgn(I*c*x^n)*csgn(I*c)*(x^r)^2-1915998*I*Pi*b*d*e^2*r^2*csgn(I*x^n)*csgn(I

*c*x^n)*csgn(I*c)*(x^r)^2+3882417*I*Pi*b*d^2*e*r*csgn(I*x^n)*csgn(I*c*x^n)*csgn(I*c)*x^r-98784*I*Pi*b*d^2*e*r^

4*csgn(I*x^n)*csgn(I*c*x^n)*csgn(I*c)*x^r+2470629*I*Pi*b*d^2*e*csgn(I*x^n)*csgn(I*c*x^n)^2*x^r+2470629*I*Pi*b*

d^2*e*csgn(I*c*x^n)^2*csgn(I*c)*x^r+521017*I*Pi*b*e^3*r^2*csgn(I*x^n)*csgn(I*c*x^n)^2*(x^r)^3-122451*I*Pi*b*e^

3*r^3*csgn(I*x^n)*csgn(I*c*x^n)^2*(x^r)^3+698691*I*Pi*b*d^2*e*r^3*csgn(I*x^n)*csgn(I*c*x^n)*csgn(I*c)*x^r+4898

04*I*Pi*b*d*e^2*r^3*csgn(I*x^n)*csgn(I*c*x^n)*csgn(I*c)*(x^r)^2+2646*I*Pi*b*d*e^2*r^5*csgn(I*x^n)*csgn(I*c*x^n

)*csgn(I*c)*(x^r)^2-98784*I*Pi*b*d^2*e*r^4*csgn(I*c*x^n)^3*x^r+3882417*I*Pi*b*d^2*e*r*csgn(I*c*x^n)^3*x^r+2470

629*I*Pi*b*d*e^2*csgn(I*c*x^n)^2*csgn(I*c)*(x^r)^2+1411788*I*Pi*b*d^3*r*csgn(I*x^n)*csgn(I*c*x^n)*csgn(I*c)+26

46*I*Pi*b*d*e^2*r^5*csgn(I*c*x^n)^3*(x^r)^2+13720*I*Pi*b*e^3*r^4*csgn(I*x^n)*csgn(I*c*x^n)^2*(x^r)^3+5292*I*Pi

*b*d^2*e*r^5*csgn(I*c*x^n)^3*x^r)/(-7+3*r)^2/x^7/(2*r-7)^2/(r-7)^2

________________________________________________________________________________________

maxima [F(-2)] time = 0.00, size = 0, normalized size = 0.00 \[ \text {Exception raised: ValueError} \]

Veriﬁcation of antiderivative is not currently implemented for this CAS.

[In]

integrate((d+e*x^r)^3*(a+b*log(c*x^n))/x^8,x, algorithm="maxima")

[Out]

Exception raised: ValueError >> Computation failed since Maxima requested additional constraints; using the 'a

ssume' command before evaluation *may* help (example of legal syntax is 'assume(r-8>0)', see `assume?` for mor

e details)Is r-8 equal to -1?

________________________________________________________________________________________

mupad [F] time = 0.00, size = -1, normalized size = -0.01 \[ \int \frac {{\left (d+e\,x^r\right )}^3\,\left (a+b\,\ln \left (c\,x^n\right )\right )}{x^8} \,d x \]

Veriﬁcation of antiderivative is not currently implemented for this CAS.

[In]

int(((d + e*x^r)^3*(a + b*log(c*x^n)))/x^8,x)

[Out]

int(((d + e*x^r)^3*(a + b*log(c*x^n)))/x^8, x)

________________________________________________________________________________________

sympy [F(-1)] time = 0.00, size = 0, normalized size = 0.00 \[ \text {Timed out} \]

Veriﬁcation of antiderivative is not currently implemented for this CAS.

[In]

integrate((d+e*x**r)**3*(a+b*ln(c*x**n))/x**8,x)

[Out]

Timed out

________________________________________________________________________________________

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