∖intx3∖left(1−x3∖right) 1−x3+x6 ∖,dx

3.27 $\int \frac{x^3 \left (1-x^3\right )}{1-x^3+x^6} \, dx$

Optimal. Leaf size=378 \[ -\frac{i \log \left (2^{2/3} x^2+\sqrt [3]{2 \left (1-i \sqrt{3}\right )} x+\left (1-i \sqrt{3}\right )^{2/3}\right )}{3 \sqrt [3]{2} \sqrt{3} \left (1-i \sqrt{3}\right )^{2/3}}+\frac{i \log \left (2^{2/3} x^2+\sqrt [3]{2 \left (1+i \sqrt{3}\right )} x+\left (1+i \sqrt{3}\right )^{2/3}\right )}{3 \sqrt [3]{2} \sqrt{3} \left (1+i \sqrt{3}\right )^{2/3}}-x+\frac{i \log \left (-\sqrt [3]{2} x+\sqrt [3]{1-i \sqrt{3}}\right )}{3 \sqrt{3} \left (\frac{1}{2} \left (1-i \sqrt{3}\right )\right )^{2/3}}-\frac{i \log \left (-\sqrt [3]{2} x+\sqrt [3]{1+i \sqrt{3}}\right )}{3 \sqrt{3} \left (\frac{1}{2} \left (1+i \sqrt{3}\right )\right )^{2/3}}-\frac{i \tan ^{-1}\left (\frac{1+\frac{2 x}{\sqrt [3]{\frac{1}{2} \left (1-i \sqrt{3}\right )}}}{\sqrt{3}}\right )}{3 \left (\frac{1}{2} \left (1-i \sqrt{3}\right )\right )^{2/3}}+\frac{i \tan ^{-1}\left (\frac{1+\frac{2 x}{\sqrt [3]{\frac{1}{2} \left (1+i \sqrt{3}\right )}}}{\sqrt{3}}\right )}{3 \left (\frac{1}{2} \left (1+i \sqrt{3}\right )\right )^{2/3}} \]

[Out]

-x - ((I/3)*ArcTan[(1 + (2*x)/((1 - I*Sqrt[3])/2)^(1/3))/Sqrt[3]])/((1 - I*Sqrt[

3])/2)^(2/3) + ((I/3)*ArcTan[(1 + (2*x)/((1 + I*Sqrt[3])/2)^(1/3))/Sqrt[3]])/((1

+ I*Sqrt[3])/2)^(2/3) + ((I/3)*Log[(1 - I*Sqrt[3])^(1/3) - 2^(1/3)*x])/(Sqrt[3]

*((1 - I*Sqrt[3])/2)^(2/3)) - ((I/3)*Log[(1 + I*Sqrt[3])^(1/3) - 2^(1/3)*x])/(Sq

rt[3]*((1 + I*Sqrt[3])/2)^(2/3)) - ((I/3)*Log[(1 - I*Sqrt[3])^(2/3) + (2*(1 - I*

Sqrt[3]))^(1/3)*x + 2^(2/3)*x^2])/(2^(1/3)*Sqrt[3]*(1 - I*Sqrt[3])^(2/3)) + ((I/

3)*Log[(1 + I*Sqrt[3])^(2/3) + (2*(1 + I*Sqrt[3]))^(1/3)*x + 2^(2/3)*x^2])/(2^(1

/3)*Sqrt[3]*(1 + I*Sqrt[3])^(2/3))

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Rubi [A] time = 0.635488, antiderivative size = 378, normalized size of antiderivative = 1., number of steps used = 14, number of rules used = 8, integrand size = 23, $\frac{\text{number of rules}}{\text{integrand size}}$ = 0.348 \[ -\frac{i \log \left (2^{2/3} x^2+\sqrt [3]{2 \left (1-i \sqrt{3}\right )} x+\left (1-i \sqrt{3}\right )^{2/3}\right )}{3 \sqrt [3]{2} \sqrt{3} \left (1-i \sqrt{3}\right )^{2/3}}+\frac{i \log \left (2^{2/3} x^2+\sqrt [3]{2 \left (1+i \sqrt{3}\right )} x+\left (1+i \sqrt{3}\right )^{2/3}\right )}{3 \sqrt [3]{2} \sqrt{3} \left (1+i \sqrt{3}\right )^{2/3}}-x+\frac{i \log \left (-\sqrt [3]{2} x+\sqrt [3]{1-i \sqrt{3}}\right )}{3 \sqrt{3} \left (\frac{1}{2} \left (1-i \sqrt{3}\right )\right )^{2/3}}-\frac{i \log \left (-\sqrt [3]{2} x+\sqrt [3]{1+i \sqrt{3}}\right )}{3 \sqrt{3} \left (\frac{1}{2} \left (1+i \sqrt{3}\right )\right )^{2/3}}-\frac{i \tan ^{-1}\left (\frac{1+\frac{2 x}{\sqrt [3]{\frac{1}{2} \left (1-i \sqrt{3}\right )}}}{\sqrt{3}}\right )}{3 \left (\frac{1}{2} \left (1-i \sqrt{3}\right )\right )^{2/3}}+\frac{i \tan ^{-1}\left (\frac{1+\frac{2 x}{\sqrt [3]{\frac{1}{2} \left (1+i \sqrt{3}\right )}}}{\sqrt{3}}\right )}{3 \left (\frac{1}{2} \left (1+i \sqrt{3}\right )\right )^{2/3}} \]

Antiderivative was successfully veriﬁed.

[In] Int[(x^3*(1 - x^3))/(1 - x^3 + x^6),x]

[Out]

-x - ((I/3)*ArcTan[(1 + (2*x)/((1 - I*Sqrt[3])/2)^(1/3))/Sqrt[3]])/((1 - I*Sqrt[

3])/2)^(2/3) + ((I/3)*ArcTan[(1 + (2*x)/((1 + I*Sqrt[3])/2)^(1/3))/Sqrt[3]])/((1

+ I*Sqrt[3])/2)^(2/3) + ((I/3)*Log[(1 - I*Sqrt[3])^(1/3) - 2^(1/3)*x])/(Sqrt[3]

*((1 - I*Sqrt[3])/2)^(2/3)) - ((I/3)*Log[(1 + I*Sqrt[3])^(1/3) - 2^(1/3)*x])/(Sq

rt[3]*((1 + I*Sqrt[3])/2)^(2/3)) - ((I/3)*Log[(1 - I*Sqrt[3])^(2/3) + (2*(1 - I*

Sqrt[3]))^(1/3)*x + 2^(2/3)*x^2])/(2^(1/3)*Sqrt[3]*(1 - I*Sqrt[3])^(2/3)) + ((I/

3)*Log[(1 + I*Sqrt[3])^(2/3) + (2*(1 + I*Sqrt[3]))^(1/3)*x + 2^(2/3)*x^2])/(2^(1

/3)*Sqrt[3]*(1 + I*Sqrt[3])^(2/3))

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Rubi in Sympy [A] time = 101.496, size = 337, normalized size = 0.89 \[ - x + \frac{2^{\frac{2}{3}} \sqrt{3} i \log{\left (\sqrt [3]{2} x - \sqrt [3]{1 - \sqrt{3} i} \right )}}{9 \left (1 - \sqrt{3} i\right )^{\frac{2}{3}}} - \frac{2^{\frac{2}{3}} \sqrt{3} i \log{\left (\sqrt [3]{2} x - \sqrt [3]{1 + \sqrt{3} i} \right )}}{9 \left (1 + \sqrt{3} i\right )^{\frac{2}{3}}} - \frac{2^{\frac{2}{3}} \sqrt{3} i \log{\left (x^{2} + \frac{2^{\frac{2}{3}} x \sqrt [3]{1 - \sqrt{3} i}}{2} + \frac{\sqrt [3]{2} \left (1 - \sqrt{3} i\right )^{\frac{2}{3}}}{2} \right )}}{18 \left (1 - \sqrt{3} i\right )^{\frac{2}{3}}} + \frac{2^{\frac{2}{3}} \sqrt{3} i \log{\left (x^{2} + \frac{2^{\frac{2}{3}} x \sqrt [3]{1 + \sqrt{3} i}}{2} + \frac{\sqrt [3]{2} \left (1 + \sqrt{3} i\right )^{\frac{2}{3}}}{2} \right )}}{18 \left (1 + \sqrt{3} i\right )^{\frac{2}{3}}} - \frac{2^{\frac{2}{3}} i \operatorname{atan}{\left (\sqrt{3} \left (\frac{2 \sqrt [3]{2} x}{3 \sqrt [3]{1 - \sqrt{3} i}} + \frac{1}{3}\right ) \right )}}{3 \left (1 - \sqrt{3} i\right )^{\frac{2}{3}}} + \frac{2^{\frac{2}{3}} i \operatorname{atan}{\left (\sqrt{3} \left (\frac{2 \sqrt [3]{2} x}{3 \sqrt [3]{1 + \sqrt{3} i}} + \frac{1}{3}\right ) \right )}}{3 \left (1 + \sqrt{3} i\right )^{\frac{2}{3}}} \]

Veriﬁcation of antiderivative is not currently implemented for this CAS.

[In] rubi_integrate(x**3*(-x**3+1)/(x**6-x**3+1),x)

[Out]

-x + 2**(2/3)*sqrt(3)*I*log(2**(1/3)*x - (1 - sqrt(3)*I)**(1/3))/(9*(1 - sqrt(3)

*I)**(2/3)) - 2**(2/3)*sqrt(3)*I*log(2**(1/3)*x - (1 + sqrt(3)*I)**(1/3))/(9*(1

+ sqrt(3)*I)**(2/3)) - 2**(2/3)*sqrt(3)*I*log(x**2 + 2**(2/3)*x*(1 - sqrt(3)*I)*

*(1/3)/2 + 2**(1/3)*(1 - sqrt(3)*I)**(2/3)/2)/(18*(1 - sqrt(3)*I)**(2/3)) + 2**(

2/3)*sqrt(3)*I*log(x**2 + 2**(2/3)*x*(1 + sqrt(3)*I)**(1/3)/2 + 2**(1/3)*(1 + sq

rt(3)*I)**(2/3)/2)/(18*(1 + sqrt(3)*I)**(2/3)) - 2**(2/3)*I*atan(sqrt(3)*(2*2**(

1/3)*x/(3*(1 - sqrt(3)*I)**(1/3)) + 1/3))/(3*(1 - sqrt(3)*I)**(2/3)) + 2**(2/3)*

I*atan(sqrt(3)*(2*2**(1/3)*x/(3*(1 + sqrt(3)*I)**(1/3)) + 1/3))/(3*(1 + sqrt(3)*

I)**(2/3))

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Mathematica [C] time = 0.0194578, size = 46, normalized size = 0.12 \[ \frac{1}{3} \text{RootSum}\left [\text{$\#$1}^6-\text{$\#$1}^3+1\&,\frac{\log (x-\text{$\#$1})}{2 \text{$\#$1}^5-\text{$\#$1}^2}\&\right ]-x \]

Antiderivative was successfully veriﬁed.

[In] Integrate[(x^3*(1 - x^3))/(1 - x^3 + x^6),x]

[Out]

-x + RootSum[1 - #1^3 + #1^6 & , Log[x - #1]/(-#1^2 + 2*#1^5) & ]/3

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Maple [C] time = 0.007, size = 41, normalized size = 0.1 \[ -x+{\frac{1}{3}\sum _{{\it \_R}={\it RootOf} \left ({{\it \_Z}}^{6}-{{\it \_Z}}^{3}+1 \right ) }{\frac{\ln \left ( x-{\it \_R} \right ) }{2\,{{\it \_R}}^{5}-{{\it \_R}}^{2}}}} \]

Veriﬁcation of antiderivative is not currently implemented for this CAS.

[In] int(x^3*(-x^3+1)/(x^6-x^3+1),x)

[Out]

-x+1/3*sum(1/(2*_R^5-_R^2)*ln(x-_R),_R=RootOf(_Z^6-_Z^3+1))

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Maxima [F] time = 0., size = 0, normalized size = 0. \[ -x + \int \frac{1}{x^{6} - x^{3} + 1}\,{d x} \]

Veriﬁcation of antiderivative is not currently implemented for this CAS.

[In] integrate(-(x^3 - 1)*x^3/(x^6 - x^3 + 1),x, algorithm="maxima")

[Out]

-x + integrate(1/(x^6 - x^3 + 1), x)

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Fricas [A] time = 0.276707, size = 884, normalized size = 2.34 \[ \text{result too large to display} \]

Veriﬁcation of antiderivative is not currently implemented for this CAS.

[In] integrate(-(x^3 - 1)*x^3/(x^6 - x^3 + 1),x, algorithm="fricas")

[Out]

1/18*sqrt(3)*(4*(sqrt(3)*cos(2/3*arctan(1/(sqrt(3) + 2))) - sin(2/3*arctan(1/(sq

rt(3) + 2))))*arctan(-(sqrt(3)*sin(2/3*arctan(1/(sqrt(3) + 2))) - cos(2/3*arctan

(1/(sqrt(3) + 2))))/(sqrt(3)*cos(2/3*arctan(1/(sqrt(3) + 2))) - 2*x - 2*sqrt(-sq

rt(3)*x*cos(2/3*arctan(1/(sqrt(3) + 2))) + x^2 + cos(2/3*arctan(1/(sqrt(3) + 2))

)^2 - x*sin(2/3*arctan(1/(sqrt(3) + 2))) + sin(2/3*arctan(1/(sqrt(3) + 2)))^2) +

sin(2/3*arctan(1/(sqrt(3) + 2))))) - 4*(sqrt(3)*cos(2/3*arctan(1/(sqrt(3) + 2))

) + sin(2/3*arctan(1/(sqrt(3) + 2))))*arctan(cos(2/3*arctan(1/(sqrt(3) + 2)))/(x

+ sqrt(x^2 + cos(2/3*arctan(1/(sqrt(3) + 2)))^2 + 2*x*sin(2/3*arctan(1/(sqrt(3)

+ 2))) + sin(2/3*arctan(1/(sqrt(3) + 2)))^2) + sin(2/3*arctan(1/(sqrt(3) + 2)))

)) + 2*cos(2/3*arctan(1/(sqrt(3) + 2)))*log(sqrt(3)*x*cos(2/3*arctan(1/(sqrt(3)

+ 2))) + x^2 + cos(2/3*arctan(1/(sqrt(3) + 2)))^2 - x*sin(2/3*arctan(1/(sqrt(3)

+ 2))) + sin(2/3*arctan(1/(sqrt(3) + 2)))^2) - (sqrt(3)*sin(2/3*arctan(1/(sqrt(3

) + 2))) + cos(2/3*arctan(1/(sqrt(3) + 2))))*log(-sqrt(3)*x*cos(2/3*arctan(1/(sq

rt(3) + 2))) + x^2 + cos(2/3*arctan(1/(sqrt(3) + 2)))^2 - x*sin(2/3*arctan(1/(sq

rt(3) + 2))) + sin(2/3*arctan(1/(sqrt(3) + 2)))^2) + (sqrt(3)*sin(2/3*arctan(1/(

sqrt(3) + 2))) - cos(2/3*arctan(1/(sqrt(3) + 2))))*log(x^2 + cos(2/3*arctan(1/(s

qrt(3) + 2)))^2 + 2*x*sin(2/3*arctan(1/(sqrt(3) + 2))) + sin(2/3*arctan(1/(sqrt(

3) + 2)))^2) - 8*arctan((sqrt(3)*sin(2/3*arctan(1/(sqrt(3) + 2))) + cos(2/3*arct

an(1/(sqrt(3) + 2))))/(sqrt(3)*cos(2/3*arctan(1/(sqrt(3) + 2))) + 2*x + 2*sqrt(s

qrt(3)*x*cos(2/3*arctan(1/(sqrt(3) + 2))) + x^2 + cos(2/3*arctan(1/(sqrt(3) + 2)

))^2 - x*sin(2/3*arctan(1/(sqrt(3) + 2))) + sin(2/3*arctan(1/(sqrt(3) + 2)))^2)

- sin(2/3*arctan(1/(sqrt(3) + 2)))))*sin(2/3*arctan(1/(sqrt(3) + 2))) - 6*sqrt(3

)*x)

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Sympy [A] time = 0.477629, size = 24, normalized size = 0.06 \[ - x - \operatorname{RootSum}{\left (19683 t^{6} + 243 t^{3} + 1, \left ( t \mapsto t \log{\left (729 t^{4} + x \right )} \right )\right )} \]

Veriﬁcation of antiderivative is not currently implemented for this CAS.

[In] integrate(x**3*(-x**3+1)/(x**6-x**3+1),x)

[Out]

-x - RootSum(19683*_t**6 + 243*_t**3 + 1, Lambda(_t, _t*log(729*_t**4 + x)))

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GIAC/XCAS [A] time = 0.286417, size = 853, normalized size = 2.26 \[ \text{result too large to display} \]

Veriﬁcation of antiderivative is not currently implemented for this CAS.

[In] integrate(-(x^3 - 1)*x^3/(x^6 - x^3 + 1),x, algorithm="giac")

[Out]

-1/9*(sqrt(3)*cos(4/9*pi)^4 - 6*sqrt(3)*cos(4/9*pi)^2*sin(4/9*pi)^2 + sqrt(3)*si

n(4/9*pi)^4 + 4*cos(4/9*pi)^3*sin(4/9*pi) - 4*cos(4/9*pi)*sin(4/9*pi)^3 - sqrt(3

)*cos(4/9*pi) - sin(4/9*pi))*arctan(-((sqrt(3)*i + 1)*cos(4/9*pi) - 2*x)/((sqrt(

3)*i + 1)*sin(4/9*pi))) - 1/9*(sqrt(3)*cos(2/9*pi)^4 - 6*sqrt(3)*cos(2/9*pi)^2*s

in(2/9*pi)^2 + sqrt(3)*sin(2/9*pi)^4 + 4*cos(2/9*pi)^3*sin(2/9*pi) - 4*cos(2/9*p

i)*sin(2/9*pi)^3 - sqrt(3)*cos(2/9*pi) - sin(2/9*pi))*arctan(-((sqrt(3)*i + 1)*c

os(2/9*pi) - 2*x)/((sqrt(3)*i + 1)*sin(2/9*pi))) - 1/9*(sqrt(3)*cos(1/9*pi)^4 -

6*sqrt(3)*cos(1/9*pi)^2*sin(1/9*pi)^2 + sqrt(3)*sin(1/9*pi)^4 - 4*cos(1/9*pi)^3*

sin(1/9*pi) + 4*cos(1/9*pi)*sin(1/9*pi)^3 + sqrt(3)*cos(1/9*pi) - sin(1/9*pi))*a

rctan(((sqrt(3)*i + 1)*cos(1/9*pi) + 2*x)/((sqrt(3)*i + 1)*sin(1/9*pi))) - 1/18*

(4*sqrt(3)*cos(4/9*pi)^3*sin(4/9*pi) - 4*sqrt(3)*cos(4/9*pi)*sin(4/9*pi)^3 - cos

(4/9*pi)^4 + 6*cos(4/9*pi)^2*sin(4/9*pi)^2 - sin(4/9*pi)^4 - sqrt(3)*sin(4/9*pi)

+ cos(4/9*pi))*ln(-(sqrt(3)*i*cos(4/9*pi) + cos(4/9*pi))*x + x^2 + 1) - 1/18*(4

*sqrt(3)*cos(2/9*pi)^3*sin(2/9*pi) - 4*sqrt(3)*cos(2/9*pi)*sin(2/9*pi)^3 - cos(2

/9*pi)^4 + 6*cos(2/9*pi)^2*sin(2/9*pi)^2 - sin(2/9*pi)^4 - sqrt(3)*sin(2/9*pi) +

cos(2/9*pi))*ln(-(sqrt(3)*i*cos(2/9*pi) + cos(2/9*pi))*x + x^2 + 1) + 1/18*(4*s

qrt(3)*cos(1/9*pi)^3*sin(1/9*pi) - 4*sqrt(3)*cos(1/9*pi)*sin(1/9*pi)^3 + cos(1/9

*pi)^4 - 6*cos(1/9*pi)^2*sin(1/9*pi)^2 + sin(1/9*pi)^4 + sqrt(3)*sin(1/9*pi) + c

os(1/9*pi))*ln((sqrt(3)*i*cos(1/9*pi) + cos(1/9*pi))*x + x^2 + 1) - x

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3.27 \(\int \frac{x^3 \left (1-x^3\right )}{1-x^3+x^6} \, dx\)