\(\int f^{\frac {c}{a+b x}} x^4 \, dx\) [149]

Optimal result

Integrand size = 15, antiderivative size = 291 \[ \int f^{\frac {c}{a+b x}} x^4 \, dx=\frac {a^4 f^{\frac {c}{a+b x}} (a+b x)}{b^5}-\frac {2 a^3 f^{\frac {c}{a+b x}} (a+b x)^2}{b^5}+\frac {2 a^2 f^{\frac {c}{a+b x}} (a+b x)^3}{b^5}-\frac {2 a^3 c f^{\frac {c}{a+b x}} (a+b x) \log (f)}{b^5}+\frac {a^2 c f^{\frac {c}{a+b x}} (a+b x)^2 \log (f)}{b^5}-\frac {a^4 c \operatorname {ExpIntegralEi}\left (\frac {c \log (f)}{a+b x}\right ) \log (f)}{b^5}+\frac {a^2 c^2 f^{\frac {c}{a+b x}} (a+b x) \log ^2(f)}{b^5}+\frac {2 a^3 c^2 \operatorname {ExpIntegralEi}\left (\frac {c \log (f)}{a+b x}\right ) \log ^2(f)}{b^5}-\frac {a^2 c^3 \operatorname {ExpIntegralEi}\left (\frac {c \log (f)}{a+b x}\right ) \log ^3(f)}{b^5}-\frac {4 a c^4 \Gamma \left (-4,-\frac {c \log (f)}{a+b x}\right ) \log ^4(f)}{b^5}-\frac {c^5 \Gamma \left (-5,-\frac {c \log (f)}{a+b x}\right ) \log ^5(f)}{b^5} \] Output:

a^4*f^(c/(b*x+a))*(b*x+a)/b^5-2*a^3*f^(c/(b*x+a))*(b*x+a)^2/b^5+2*a^2*f^(c 
/(b*x+a))*(b*x+a)^3/b^5-2*a^3*c*f^(c/(b*x+a))*(b*x+a)*ln(f)/b^5+a^2*c*f^(c 
/(b*x+a))*(b*x+a)^2*ln(f)/b^5-a^4*c*Ei(c*ln(f)/(b*x+a))*ln(f)/b^5+a^2*c^2* 
f^(c/(b*x+a))*(b*x+a)*ln(f)^2/b^5+2*a^3*c^2*Ei(c*ln(f)/(b*x+a))*ln(f)^2/b^ 
5-a^2*c^3*Ei(c*ln(f)/(b*x+a))*ln(f)^3/b^5-4*a*(b*x+a)^4*Ei(5,-c*ln(f)/(b*x 
+a))/b^5+(b*x+a)^5*Ei(6,-c*ln(f)/(b*x+a))/b^5
 

Mathematica [A] (verified)

Time = 0.19 (sec) , antiderivative size = 241, normalized size of antiderivative = 0.83 \[ \int f^{\frac {c}{a+b x}} x^4 \, dx=\frac {a f^{\frac {c}{a+b x}} \left (24 a^4-154 a^3 c \log (f)+102 a^2 c^2 \log ^2(f)-19 a c^3 \log ^3(f)+c^4 \log ^4(f)\right )}{120 b^5}+\frac {-c \operatorname {ExpIntegralEi}\left (\frac {c \log (f)}{a+b x}\right ) \log (f) \left (120 a^4-240 a^3 c \log (f)+120 a^2 c^2 \log ^2(f)-20 a c^3 \log ^3(f)+c^4 \log ^4(f)\right )+b f^{\frac {c}{a+b x}} x \left (24 b^4 x^4+2 c \left (-48 a^3+18 a^2 b x-8 a b^2 x^2+3 b^3 x^3\right ) \log (f)+2 c^2 \left (43 a^2-7 a b x+b^2 x^2\right ) \log ^2(f)+c^3 (-18 a+b x) \log ^3(f)+c^4 \log ^4(f)\right )}{120 b^5} \] Input:

Integrate[f^(c/(a + b*x))*x^4,x]
 

Output:

(a*f^(c/(a + b*x))*(24*a^4 - 154*a^3*c*Log[f] + 102*a^2*c^2*Log[f]^2 - 19* 
a*c^3*Log[f]^3 + c^4*Log[f]^4))/(120*b^5) + (-(c*ExpIntegralEi[(c*Log[f])/ 
(a + b*x)]*Log[f]*(120*a^4 - 240*a^3*c*Log[f] + 120*a^2*c^2*Log[f]^2 - 20* 
a*c^3*Log[f]^3 + c^4*Log[f]^4)) + b*f^(c/(a + b*x))*x*(24*b^4*x^4 + 2*c*(- 
48*a^3 + 18*a^2*b*x - 8*a*b^2*x^2 + 3*b^3*x^3)*Log[f] + 2*c^2*(43*a^2 - 7* 
a*b*x + b^2*x^2)*Log[f]^2 + c^3*(-18*a + b*x)*Log[f]^3 + c^4*Log[f]^4))/(1 
20*b^5)
 

Rubi [A] (verified)

Time = 0.93 (sec) , antiderivative size = 291, normalized size of antiderivative = 1.00, number of steps used = 2, number of rules used = 2, \(\frac {\text {number of rules}}{\text {integrand size}}\) = 0.133, Rules used = {2656, 2009}

Below are the steps used by Rubi to obtain the solution. The rule number used for the transformation is given above next to the arrow. The rules definitions used are listed below.

Input:

Int[f^(c/(a + b*x))*x^4,x]
 

Output:

(a^4*f^(c/(a + b*x))*(a + b*x))/b^5 - (2*a^3*f^(c/(a + b*x))*(a + b*x)^2)/ 
b^5 + (2*a^2*f^(c/(a + b*x))*(a + b*x)^3)/b^5 - (2*a^3*c*f^(c/(a + b*x))*( 
a + b*x)*Log[f])/b^5 + (a^2*c*f^(c/(a + b*x))*(a + b*x)^2*Log[f])/b^5 - (a 
^4*c*ExpIntegralEi[(c*Log[f])/(a + b*x)]*Log[f])/b^5 + (a^2*c^2*f^(c/(a + 
b*x))*(a + b*x)*Log[f]^2)/b^5 + (2*a^3*c^2*ExpIntegralEi[(c*Log[f])/(a + b 
*x)]*Log[f]^2)/b^5 - (a^2*c^3*ExpIntegralEi[(c*Log[f])/(a + b*x)]*Log[f]^3 
)/b^5 - (4*a*c^4*Gamma[-4, -((c*Log[f])/(a + b*x))]*Log[f]^4)/b^5 - (c^5*G 
amma[-5, -((c*Log[f])/(a + b*x))]*Log[f]^5)/b^5
 

Defintions of rubi rules used

Int[u_, x_Symbol] :> Simp[IntSum[u, x], x] /; SumQ[u]
 

Int[(F_)^((a_.) + (b_.)*((c_.) + (d_.)*(x_))^(n_))*(Px_), x_Symbol] :> Int[ 
ExpandLinearProduct[F^(a + b*(c + d*x)^n), Px, c, d, x], x] /; FreeQ[{F, a, 
 b, c, d, n}, x] && PolynomialQ[Px, x]
 

Maple [A] (verified)

Time = 0.22 (sec) , antiderivative size = 517, normalized size of antiderivative = 1.78

Input:

int(f^(c/(b*x+a))*x^4,x,method=_RETURNVERBOSE)
 

Output:

1/120/b^5*Ei(1,-c*ln(f)/(b*x+a))*c^5*ln(f)^5+1/120/b^4*ln(f)^4*f^(c/(b*x+a 
))*c^4*x+1/120/b^3*ln(f)^3*f^(c/(b*x+a))*c^3*x^2+1/60/b^2*ln(f)^2*f^(c/(b* 
x+a))*c^2*x^3+1/20/b*ln(f)*f^(c/(b*x+a))*c*x^4+1/5*f^(c/(b*x+a))*x^5+1/120 
/b^5*ln(f)^4*f^(c/(b*x+a))*a*c^4-1/6/b^5*ln(f)^4*Ei(1,-c*ln(f)/(b*x+a))*a* 
c^4-3/20/b^4*ln(f)^3*f^(c/(b*x+a))*a*c^3*x-7/60/b^3*ln(f)^2*f^(c/(b*x+a))* 
a*c^2*x^2-2/15/b^2*ln(f)*f^(c/(b*x+a))*a*c*x^3-19/120/b^5*ln(f)^3*f^(c/(b* 
x+a))*a^2*c^3+1/b^5*ln(f)^3*Ei(1,-c*ln(f)/(b*x+a))*a^2*c^3+43/60/b^4*ln(f) 
^2*f^(c/(b*x+a))*a^2*c^2*x+3/10/b^3*ln(f)*f^(c/(b*x+a))*a^2*c*x^2+17/20/b^ 
5*ln(f)^2*f^(c/(b*x+a))*a^3*c^2-2/b^5*ln(f)^2*Ei(1,-c*ln(f)/(b*x+a))*a^3*c 
^2-4/5/b^4*ln(f)*f^(c/(b*x+a))*a^3*c*x-77/60/b^5*ln(f)*f^(c/(b*x+a))*a^4*c 
+1/b^5*ln(f)*Ei(1,-c*ln(f)/(b*x+a))*a^4*c+1/5/b^5*f^(c/(b*x+a))*a^5
 

Fricas [A] (verification not implemented)

Time = 0.08 (sec) , antiderivative size = 243, normalized size of antiderivative = 0.84 \[ \int f^{\frac {c}{a+b x}} x^4 \, dx=\frac {{\left (24 \, b^{5} x^{5} + 24 \, a^{5} + {\left (b c^{4} x + a c^{4}\right )} \log \left (f\right )^{4} + {\left (b^{2} c^{3} x^{2} - 18 \, a b c^{3} x - 19 \, a^{2} c^{3}\right )} \log \left (f\right )^{3} + 2 \, {\left (b^{3} c^{2} x^{3} - 7 \, a b^{2} c^{2} x^{2} + 43 \, a^{2} b c^{2} x + 51 \, a^{3} c^{2}\right )} \log \left (f\right )^{2} + 2 \, {\left (3 \, b^{4} c x^{4} - 8 \, a b^{3} c x^{3} + 18 \, a^{2} b^{2} c x^{2} - 48 \, a^{3} b c x - 77 \, a^{4} c\right )} \log \left (f\right )\right )} f^{\frac {c}{b x + a}} - {\left (c^{5} \log \left (f\right )^{5} - 20 \, a c^{4} \log \left (f\right )^{4} + 120 \, a^{2} c^{3} \log \left (f\right )^{3} - 240 \, a^{3} c^{2} \log \left (f\right )^{2} + 120 \, a^{4} c \log \left (f\right )\right )} {\rm Ei}\left (\frac {c \log \left (f\right )}{b x + a}\right )}{120 \, b^{5}} \] Input:

integrate(f^(c/(b*x+a))*x^4,x, algorithm="fricas")
 

Output:

1/120*((24*b^5*x^5 + 24*a^5 + (b*c^4*x + a*c^4)*log(f)^4 + (b^2*c^3*x^2 - 
18*a*b*c^3*x - 19*a^2*c^3)*log(f)^3 + 2*(b^3*c^2*x^3 - 7*a*b^2*c^2*x^2 + 4 
3*a^2*b*c^2*x + 51*a^3*c^2)*log(f)^2 + 2*(3*b^4*c*x^4 - 8*a*b^3*c*x^3 + 18 
*a^2*b^2*c*x^2 - 48*a^3*b*c*x - 77*a^4*c)*log(f))*f^(c/(b*x + a)) - (c^5*l 
og(f)^5 - 20*a*c^4*log(f)^4 + 120*a^2*c^3*log(f)^3 - 240*a^3*c^2*log(f)^2 
+ 120*a^4*c*log(f))*Ei(c*log(f)/(b*x + a)))/b^5
 

Sympy [F]

\[ \int f^{\frac {c}{a+b x}} x^4 \, dx=\int f^{\frac {c}{a + b x}} x^{4}\, dx \] Input:

integrate(f**(c/(b*x+a))*x**4,x)
 

Output:

Integral(f**(c/(a + b*x))*x**4, x)
 

Maxima [F]

\[ \int f^{\frac {c}{a+b x}} x^4 \, dx=\int { f^{\frac {c}{b x + a}} x^{4} \,d x } \] Input:

integrate(f^(c/(b*x+a))*x^4,x, algorithm="maxima")
 

Output:

1/120*(24*b^4*x^5 + 6*b^3*c*x^4*log(f) + 2*(b^2*c^2*log(f)^2 - 8*a*b^2*c*l 
og(f))*x^3 + (b*c^3*log(f)^3 - 14*a*b*c^2*log(f)^2 + 36*a^2*b*c*log(f))*x^ 
2 + (c^4*log(f)^4 - 18*a*c^3*log(f)^3 + 86*a^2*c^2*log(f)^2 - 96*a^3*c*log 
(f))*x)*f^(c/(b*x + a))/b^4 + integrate(-1/120*(a^2*c^4*log(f)^4 - 18*a^3* 
c^3*log(f)^3 + 86*a^4*c^2*log(f)^2 - 96*a^5*c*log(f) - (b*c^5*log(f)^5 - 2 
0*a*b*c^4*log(f)^4 + 120*a^2*b*c^3*log(f)^3 - 240*a^3*b*c^2*log(f)^2 + 120 
*a^4*b*c*log(f))*x)*f^(c/(b*x + a))/(b^6*x^2 + 2*a*b^5*x + a^2*b^4), x)
 

Giac [F]

\[ \int f^{\frac {c}{a+b x}} x^4 \, dx=\int { f^{\frac {c}{b x + a}} x^{4} \,d x } \] Input:

integrate(f^(c/(b*x+a))*x^4,x, algorithm="giac")
 

Output:

integrate(f^(c/(b*x + a))*x^4, x)
                                                                                    
                                                                                    
 

Mupad [F(-1)]

Timed out. \[ \int f^{\frac {c}{a+b x}} x^4 \, dx=\int f^{\frac {c}{a+b\,x}}\,x^4 \,d x \] Input:

int(f^(c/(a + b*x))*x^4,x)
 

Output:

int(f^(c/(a + b*x))*x^4, x)
 

Reduce [F]

\[ \int f^{\frac {c}{a+b x}} x^4 \, dx =\text {Too large to display} \] Input:

int(f^(c/(b*x+a))*x^4,x)
 

Output:

(f**(c/(a + b*x))*log(f)**5*b**2*c**5*x**2 + 2*f**(c/(a + b*x))*log(f)**4* 
a**2*b*c**4*x - 17*f**(c/(a + b*x))*log(f)**4*a*b**2*c**4*x**2 + f**(c/(a 
+ b*x))*log(f)**4*b**3*c**4*x**3 + 2*f**(c/(a + b*x))*log(f)**3*a**4*c**3 
- 32*f**(c/(a + b*x))*log(f)**3*a**3*b*c**3*x + 72*f**(c/(a + b*x))*log(f) 
**3*a**2*b**2*c**3*x**2 - 12*f**(c/(a + b*x))*log(f)**3*a*b**3*c**3*x**3 + 
 2*f**(c/(a + b*x))*log(f)**3*b**4*c**3*x**4 - 34*f**(c/(a + b*x))*log(f)* 
*2*a**5*c**2 + 110*f**(c/(a + b*x))*log(f)**2*a**4*b*c**2*x - 60*f**(c/(a 
+ b*x))*log(f)**2*a**3*b**2*c**2*x**2 + 20*f**(c/(a + b*x))*log(f)**2*a**2 
*b**3*c**2*x**3 - 10*f**(c/(a + b*x))*log(f)**2*a*b**4*c**2*x**4 + 6*f**(c 
/(a + b*x))*log(f)**2*b**5*c**2*x**5 + 144*f**(c/(a + b*x))*log(f)*a**6*c 
+ 24*f**(c/(a + b*x))*log(f)*a**5*b*c*x + 24*f**(c/(a + b*x))*log(f)*a*b** 
5*c*x**5 + 24*f**(c/(a + b*x))*log(f)*b**6*c*x**6 - 120*f**(c/(a + b*x))*a 
**7 - 120*f**(c/(a + b*x))*a**6*b*x + int((f**(c/(a + b*x))*x**2)/(a**3 + 
3*a**2*b*x + 3*a*b**2*x**2 + b**3*x**3),x)*log(f)**6*a*b**3*c**6 + int((f* 
*(c/(a + b*x))*x**2)/(a**3 + 3*a**2*b*x + 3*a*b**2*x**2 + b**3*x**3),x)*lo 
g(f)**6*b**4*c**6*x - 20*int((f**(c/(a + b*x))*x**2)/(a**3 + 3*a**2*b*x + 
3*a*b**2*x**2 + b**3*x**3),x)*log(f)**5*a**2*b**3*c**5 - 20*int((f**(c/(a 
+ b*x))*x**2)/(a**3 + 3*a**2*b*x + 3*a*b**2*x**2 + b**3*x**3),x)*log(f)**5 
*a*b**4*c**5*x + 120*int((f**(c/(a + b*x))*x**2)/(a**3 + 3*a**2*b*x + 3*a* 
b**2*x**2 + b**3*x**3),x)*log(f)**4*a**3*b**3*c**4 + 120*int((f**(c/(a ...