∫ log(c(a+bx3)p)__________

3.23 \(\int \frac {\log (c (a+b x^3)^p)}{x^5} \, dx\)

Optimal. Leaf size=151 \[ -\frac {b^{4/3} p \log \left (a^{2/3}-\sqrt [3]{a} \sqrt [3]{b} x+b^{2/3} x^2\right )}{8 a^{4/3}}+\frac {b^{4/3} p \log \left (\sqrt [3]{a}+\sqrt [3]{b} x\right )}{4 a^{4/3}}+\frac {\sqrt {3} b^{4/3} p \tan ^{-1}\left (\frac {\sqrt [3]{a}-2 \sqrt [3]{b} x}{\sqrt {3} \sqrt [3]{a}}\right )}{4 a^{4/3}}-\frac {\log \left (c \left (a+b x^3\right )^p\right )}{4 x^4}-\frac {3 b p}{4 a x} \]

[Out]

-3/4*b*p/a/x+1/4*b^(4/3)*p*ln(a^(1/3)+b^(1/3)*x)/a^(4/3)-1/8*b^(4/3)*p*ln(a^(2/3)-a^(1/3)*b^(1/3)*x+b^(2/3)*x^

2)/a^(4/3)-1/4*ln(c*(b*x^3+a)^p)/x^4+1/4*b^(4/3)*p*arctan(1/3*(a^(1/3)-2*b^(1/3)*x)/a^(1/3)*3^(1/2))*3^(1/2)/a

^(4/3)

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Rubi [A] time = 0.09, antiderivative size = 151, normalized size of antiderivative = 1.00, number of steps used = 8, number of rules used = 8, integrand size = 16, \(\frac {\text {number of rules}}{\text {integrand size}}\) = 0.500, Rules used = {2455, 325, 292, 31, 634, 617, 204, 628} \[ -\frac {b^{4/3} p \log \left (a^{2/3}-\sqrt [3]{a} \sqrt [3]{b} x+b^{2/3} x^2\right )}{8 a^{4/3}}+\frac {b^{4/3} p \log \left (\sqrt [3]{a}+\sqrt [3]{b} x\right )}{4 a^{4/3}}+\frac {\sqrt {3} b^{4/3} p \tan ^{-1}\left (\frac {\sqrt [3]{a}-2 \sqrt [3]{b} x}{\sqrt {3} \sqrt [3]{a}}\right )}{4 a^{4/3}}-\frac {\log \left (c \left (a+b x^3\right )^p\right )}{4 x^4}-\frac {3 b p}{4 a x} \]

Antiderivative was successfully veriﬁed.

[In]

Int[Log[c*(a + b*x^3)^p]/x^5,x]

[Out]

(-3*b*p)/(4*a*x) + (Sqrt[3]*b^(4/3)*p*ArcTan[(a^(1/3) - 2*b^(1/3)*x)/(Sqrt[3]*a^(1/3))])/(4*a^(4/3)) + (b^(4/3

)*p*Log[a^(1/3) + b^(1/3)*x])/(4*a^(4/3)) - (b^(4/3)*p*Log[a^(2/3) - a^(1/3)*b^(1/3)*x + b^(2/3)*x^2])/(8*a^(4

/3)) - Log[c*(a + b*x^3)^p]/(4*x^4)

Rule 31

Int[((a_) + (b_.)*(x_))^(-1), x_Symbol] :> Simp[Log[RemoveContent[a + b*x, x]]/b, x] /; FreeQ[{a, b}, x]

Rule 204

Int[((a_) + (b_.)*(x_)^2)^(-1), x_Symbol] :> -Simp[ArcTan[(Rt[-b, 2]*x)/Rt[-a, 2]]/(Rt[-a, 2]*Rt[-b, 2]), x] /

; FreeQ[{a, b}, x] && PosQ[a/b] && (LtQ[a, 0] || LtQ[b, 0])

Rule 292

Int[(x_)/((a_) + (b_.)*(x_)^3), x_Symbol] :> -Dist[(3*Rt[a, 3]*Rt[b, 3])^(-1), Int[1/(Rt[a, 3] + Rt[b, 3]*x),

x], x] + Dist[1/(3*Rt[a, 3]*Rt[b, 3]), Int[(Rt[a, 3] + Rt[b, 3]*x)/(Rt[a, 3]^2 - Rt[a, 3]*Rt[b, 3]*x + Rt[b, 3

]^2*x^2), x], x] /; FreeQ[{a, b}, x]

Rule 325

Int[((c_.)*(x_))^(m_)*((a_) + (b_.)*(x_)^(n_))^(p_), x_Symbol] :> Simp[((c*x)^(m + 1)*(a + b*x^n)^(p + 1))/(a*

c*(m + 1)), x] - Dist[(b*(m + n*(p + 1) + 1))/(a*c^n*(m + 1)), Int[(c*x)^(m + n)*(a + b*x^n)^p, x], x] /; Free

Q[{a, b, c, p}, x] && IGtQ[n, 0] && LtQ[m, -1] && IntBinomialQ[a, b, c, n, m, p, x]

Rule 617

Int[((a_) + (b_.)*(x_) + (c_.)*(x_)^2)^(-1), x_Symbol] :> With[{q = 1 - 4*Simplify[(a*c)/b^2]}, Dist[-2/b, Sub

st[Int[1/(q - x^2), x], x, 1 + (2*c*x)/b], x] /; RationalQ[q] && (EqQ[q^2, 1] || !RationalQ[b^2 - 4*a*c])] /;

FreeQ[{a, b, c}, x] && NeQ[b^2 - 4*a*c, 0]

Rule 628

Int[((d_) + (e_.)*(x_))/((a_.) + (b_.)*(x_) + (c_.)*(x_)^2), x_Symbol] :> Simp[(d*Log[RemoveContent[a + b*x +

c*x^2, x]])/b, x] /; FreeQ[{a, b, c, d, e}, x] && EqQ[2*c*d - b*e, 0]

Rule 634

Int[((d_.) + (e_.)*(x_))/((a_) + (b_.)*(x_) + (c_.)*(x_)^2), x_Symbol] :> Dist[(2*c*d - b*e)/(2*c), Int[1/(a +

b*x + c*x^2), x], x] + Dist[e/(2*c), Int[(b + 2*c*x)/(a + b*x + c*x^2), x], x] /; FreeQ[{a, b, c, d, e}, x] &

& NeQ[2*c*d - b*e, 0] && NeQ[b^2 - 4*a*c, 0] && !NiceSqrtQ[b^2 - 4*a*c]

Rule 2455

Int[((a_.) + Log[(c_.)*((d_) + (e_.)*(x_)^(n_))^(p_.)]*(b_.))*((f_.)*(x_))^(m_.), x_Symbol] :> Simp[((f*x)^(m

+ 1)*(a + b*Log[c*(d + e*x^n)^p]))/(f*(m + 1)), x] - Dist[(b*e*n*p)/(f*(m + 1)), Int[(x^(n - 1)*(f*x)^(m + 1))

/(d + e*x^n), x], x] /; FreeQ[{a, b, c, d, e, f, m, n, p}, x] && NeQ[m, -1]

Rubi steps

\begin {align*} \int \frac {\log \left (c \left (a+b x^3\right )^p\right )}{x^5} \, dx &=-\frac {\log \left (c \left (a+b x^3\right )^p\right )}{4 x^4}+\frac {1}{4} (3 b p) \int \frac {1}{x^2 \left (a+b x^3\right )} \, dx\\ &=-\frac {3 b p}{4 a x}-\frac {\log \left (c \left (a+b x^3\right )^p\right )}{4 x^4}-\frac {\left (3 b^2 p\right ) \int \frac {x}{a+b x^3} \, dx}{4 a}\\ &=-\frac {3 b p}{4 a x}-\frac {\log \left (c \left (a+b x^3\right )^p\right )}{4 x^4}+\frac {\left (b^{5/3} p\right ) \int \frac {1}{\sqrt [3]{a}+\sqrt [3]{b} x} \, dx}{4 a^{4/3}}-\frac {\left (b^{5/3} p\right ) \int \frac {\sqrt [3]{a}+\sqrt [3]{b} x}{a^{2/3}-\sqrt [3]{a} \sqrt [3]{b} x+b^{2/3} x^2} \, dx}{4 a^{4/3}}\\ &=-\frac {3 b p}{4 a x}+\frac {b^{4/3} p \log \left (\sqrt [3]{a}+\sqrt [3]{b} x\right )}{4 a^{4/3}}-\frac {\log \left (c \left (a+b x^3\right )^p\right )}{4 x^4}-\frac {\left (b^{4/3} p\right ) \int \frac {-\sqrt [3]{a} \sqrt [3]{b}+2 b^{2/3} x}{a^{2/3}-\sqrt [3]{a} \sqrt [3]{b} x+b^{2/3} x^2} \, dx}{8 a^{4/3}}-\frac {\left (3 b^{5/3} p\right ) \int \frac {1}{a^{2/3}-\sqrt [3]{a} \sqrt [3]{b} x+b^{2/3} x^2} \, dx}{8 a}\\ &=-\frac {3 b p}{4 a x}+\frac {b^{4/3} p \log \left (\sqrt [3]{a}+\sqrt [3]{b} x\right )}{4 a^{4/3}}-\frac {b^{4/3} p \log \left (a^{2/3}-\sqrt [3]{a} \sqrt [3]{b} x+b^{2/3} x^2\right )}{8 a^{4/3}}-\frac {\log \left (c \left (a+b x^3\right )^p\right )}{4 x^4}-\frac {\left (3 b^{4/3} p\right ) \operatorname {Subst}\left (\int \frac {1}{-3-x^2} \, dx,x,1-\frac {2 \sqrt [3]{b} x}{\sqrt [3]{a}}\right )}{4 a^{4/3}}\\ &=-\frac {3 b p}{4 a x}+\frac {\sqrt {3} b^{4/3} p \tan ^{-1}\left (\frac {\sqrt [3]{a}-2 \sqrt [3]{b} x}{\sqrt {3} \sqrt [3]{a}}\right )}{4 a^{4/3}}+\frac {b^{4/3} p \log \left (\sqrt [3]{a}+\sqrt [3]{b} x\right )}{4 a^{4/3}}-\frac {b^{4/3} p \log \left (a^{2/3}-\sqrt [3]{a} \sqrt [3]{b} x+b^{2/3} x^2\right )}{8 a^{4/3}}-\frac {\log \left (c \left (a+b x^3\right )^p\right )}{4 x^4}\\ \end {align*}

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Mathematica [C] time = 0.00, size = 49, normalized size = 0.32 \[ -\frac {\log \left (c \left (a+b x^3\right )^p\right )}{4 x^4}-\frac {3 b p \, _2F_1\left (-\frac {1}{3},1;\frac {2}{3};-\frac {b x^3}{a}\right )}{4 a x} \]

Antiderivative was successfully veriﬁed.

[In]

Integrate[Log[c*(a + b*x^3)^p]/x^5,x]

[Out]

(-3*b*p*Hypergeometric2F1[-1/3, 1, 2/3, -((b*x^3)/a)])/(4*a*x) - Log[c*(a + b*x^3)^p]/(4*x^4)

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fricas [A] time = 0.47, size = 138, normalized size = 0.91 \[ -\frac {2 \, \sqrt {3} b p x^{4} \left (\frac {b}{a}\right )^{\frac {1}{3}} \arctan \left (\frac {2}{3} \, \sqrt {3} x \left (\frac {b}{a}\right )^{\frac {1}{3}} - \frac {1}{3} \, \sqrt {3}\right ) + b p x^{4} \left (\frac {b}{a}\right )^{\frac {1}{3}} \log \left (b x^{2} - a x \left (\frac {b}{a}\right )^{\frac {2}{3}} + a \left (\frac {b}{a}\right )^{\frac {1}{3}}\right ) - 2 \, b p x^{4} \left (\frac {b}{a}\right )^{\frac {1}{3}} \log \left (b x + a \left (\frac {b}{a}\right )^{\frac {2}{3}}\right ) + 6 \, b p x^{3} + 2 \, a p \log \left (b x^{3} + a\right ) + 2 \, a \log \relax (c)}{8 \, a x^{4}} \]

Veriﬁcation of antiderivative is not currently implemented for this CAS.

[In]

integrate(log(c*(b*x^3+a)^p)/x^5,x, algorithm="fricas")

[Out]

-1/8*(2*sqrt(3)*b*p*x^4*(b/a)^(1/3)*arctan(2/3*sqrt(3)*x*(b/a)^(1/3) - 1/3*sqrt(3)) + b*p*x^4*(b/a)^(1/3)*log(

b*x^2 - a*x*(b/a)^(2/3) + a*(b/a)^(1/3)) - 2*b*p*x^4*(b/a)^(1/3)*log(b*x + a*(b/a)^(2/3)) + 6*b*p*x^3 + 2*a*p*

log(b*x^3 + a) + 2*a*log(c))/(a*x^4)

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giac [A] time = 0.21, size = 153, normalized size = 1.01 \[ \frac {1}{8} \, b^{2} p {\left (\frac {2 \, \left (-\frac {a}{b}\right )^{\frac {2}{3}} \log \left ({\left | x - \left (-\frac {a}{b}\right )^{\frac {1}{3}} \right |}\right )}{a^{2}} + \frac {2 \, \sqrt {3} \left (-a b^{2}\right )^{\frac {2}{3}} \arctan \left (\frac {\sqrt {3} {\left (2 \, x + \left (-\frac {a}{b}\right )^{\frac {1}{3}}\right )}}{3 \, \left (-\frac {a}{b}\right )^{\frac {1}{3}}}\right )}{a^{2} b^{2}} - \frac {\left (-a b^{2}\right )^{\frac {2}{3}} \log \left (x^{2} + x \left (-\frac {a}{b}\right )^{\frac {1}{3}} + \left (-\frac {a}{b}\right )^{\frac {2}{3}}\right )}{a^{2} b^{2}}\right )} - \frac {p \log \left (b x^{3} + a\right )}{4 \, x^{4}} - \frac {3 \, b p x^{3} + a \log \relax (c)}{4 \, a x^{4}} \]

Veriﬁcation of antiderivative is not currently implemented for this CAS.

[In]

integrate(log(c*(b*x^3+a)^p)/x^5,x, algorithm="giac")

[Out]

1/8*b^2*p*(2*(-a/b)^(2/3)*log(abs(x - (-a/b)^(1/3)))/a^2 + 2*sqrt(3)*(-a*b^2)^(2/3)*arctan(1/3*sqrt(3)*(2*x +

(-a/b)^(1/3))/(-a/b)^(1/3))/(a^2*b^2) - (-a*b^2)^(2/3)*log(x^2 + x*(-a/b)^(1/3) + (-a/b)^(2/3))/(a^2*b^2)) - 1

/4*p*log(b*x^3 + a)/x^4 - 1/4*(3*b*p*x^3 + a*log(c))/(a*x^4)

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maple [C] time = 0.36, size = 215, normalized size = 1.42 \[ -\frac {\ln \left (\left (b \,x^{3}+a \right )^{p}\right )}{4 x^{4}}-\frac {-2 a \,x^{4} \RootOf \left (a^{4} \textit {\_Z}^{3}-b^{4} p^{3}\right ) \ln \left (-\RootOf \left (a^{4} \textit {\_Z}^{3}-b^{4} p^{3}\right )^{2} a^{3} b p +\left (-4 \RootOf \left (a^{4} \textit {\_Z}^{3}-b^{4} p^{3}\right )^{3} a^{4}+3 b^{4} p^{3}\right ) x \right )+6 b p \,x^{3}-i \pi a \,\mathrm {csgn}\left (i c \right ) \mathrm {csgn}\left (i \left (b \,x^{3}+a \right )^{p}\right ) \mathrm {csgn}\left (i c \left (b \,x^{3}+a \right )^{p}\right )+i \pi a \,\mathrm {csgn}\left (i c \right ) \mathrm {csgn}\left (i c \left (b \,x^{3}+a \right )^{p}\right )^{2}+i \pi a \,\mathrm {csgn}\left (i \left (b \,x^{3}+a \right )^{p}\right ) \mathrm {csgn}\left (i c \left (b \,x^{3}+a \right )^{p}\right )^{2}-i \pi a \mathrm {csgn}\left (i c \left (b \,x^{3}+a \right )^{p}\right )^{3}+2 a \ln \relax (c )}{8 a \,x^{4}} \]

Veriﬁcation of antiderivative is not currently implemented for this CAS.

[In]

int(ln(c*(b*x^3+a)^p)/x^5,x)

[Out]

-1/4/x^4*ln((b*x^3+a)^p)-1/8*(I*Pi*a*csgn(I*(b*x^3+a)^p)*csgn(I*c*(b*x^3+a)^p)^2-I*Pi*a*csgn(I*c)*csgn(I*(b*x^

3+a)^p)*csgn(I*c*(b*x^3+a)^p)-I*Pi*a*csgn(I*c*(b*x^3+a)^p)^3+I*Pi*a*csgn(I*c)*csgn(I*c*(b*x^3+a)^p)^2-2*sum(_R

*ln((-4*_R^3*a^4+3*b^4*p^3)*x-a^3*b*p*_R^2),_R=RootOf(_Z^3*a^4-b^4*p^3))*a*x^4+6*b*p*x^3+2*a*ln(c))/a/x^4

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maxima [A] time = 1.47, size = 127, normalized size = 0.84 \[ -\frac {1}{8} \, b p {\left (\frac {2 \, \sqrt {3} \arctan \left (\frac {\sqrt {3} {\left (2 \, x - \left (\frac {a}{b}\right )^{\frac {1}{3}}\right )}}{3 \, \left (\frac {a}{b}\right )^{\frac {1}{3}}}\right )}{a \left (\frac {a}{b}\right )^{\frac {1}{3}}} + \frac {\log \left (x^{2} - x \left (\frac {a}{b}\right )^{\frac {1}{3}} + \left (\frac {a}{b}\right )^{\frac {2}{3}}\right )}{a \left (\frac {a}{b}\right )^{\frac {1}{3}}} - \frac {2 \, \log \left (x + \left (\frac {a}{b}\right )^{\frac {1}{3}}\right )}{a \left (\frac {a}{b}\right )^{\frac {1}{3}}} + \frac {6}{a x}\right )} - \frac {\log \left ({\left (b x^{3} + a\right )}^{p} c\right )}{4 \, x^{4}} \]

Veriﬁcation of antiderivative is not currently implemented for this CAS.

[In]

integrate(log(c*(b*x^3+a)^p)/x^5,x, algorithm="maxima")

[Out]

-1/8*b*p*(2*sqrt(3)*arctan(1/3*sqrt(3)*(2*x - (a/b)^(1/3))/(a/b)^(1/3))/(a*(a/b)^(1/3)) + log(x^2 - x*(a/b)^(1

/3) + (a/b)^(2/3))/(a*(a/b)^(1/3)) - 2*log(x + (a/b)^(1/3))/(a*(a/b)^(1/3)) + 6/(a*x)) - 1/4*log((b*x^3 + a)^p

*c)/x^4

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mupad [B] time = 2.36, size = 125, normalized size = 0.83 \[ \frac {b^{4/3}\,p\,\ln \left (b^{1/3}\,x+a^{1/3}\right )}{4\,a^{4/3}}-\frac {\ln \left (c\,{\left (b\,x^3+a\right )}^p\right )}{4\,x^4}-\frac {3\,b\,p}{4\,a\,x}+\frac {b^{4/3}\,p\,\ln \left (4\,b^{1/3}\,x-2\,a^{1/3}-\sqrt {3}\,a^{1/3}\,2{}\mathrm {i}\right )\,\left (-\frac {1}{2}+\frac {\sqrt {3}\,1{}\mathrm {i}}{2}\right )}{4\,a^{4/3}}-\frac {b^{4/3}\,p\,\ln \left (4\,b^{1/3}\,x-2\,a^{1/3}+\sqrt {3}\,a^{1/3}\,2{}\mathrm {i}\right )\,\left (\frac {1}{2}+\frac {\sqrt {3}\,1{}\mathrm {i}}{2}\right )}{4\,a^{4/3}} \]

Veriﬁcation of antiderivative is not currently implemented for this CAS.

[In]

int(log(c*(a + b*x^3)^p)/x^5,x)

[Out]

(b^(4/3)*p*log(b^(1/3)*x + a^(1/3)))/(4*a^(4/3)) - log(c*(a + b*x^3)^p)/(4*x^4) - (3*b*p)/(4*a*x) + (b^(4/3)*p

*log(4*b^(1/3)*x - 3^(1/2)*a^(1/3)*2i - 2*a^(1/3))*((3^(1/2)*1i)/2 - 1/2))/(4*a^(4/3)) - (b^(4/3)*p*log(3^(1/2

)*a^(1/3)*2i + 4*b^(1/3)*x - 2*a^(1/3))*((3^(1/2)*1i)/2 + 1/2))/(4*a^(4/3))

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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(ln(c*(b*x**3+a)**p)/x**5,x)

[Out]

Timed out

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