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Resolución de integrales/ x^2+9/ 1/(x^2+9)^3

Integral de 1/(x^2+9)^3 dx

Límites de integración:

interior superior
v

Gráfico:

interior superior

Definida a trozos:

Solución

Ha introducido [src] 
  1             
  /             
 |              
 |      1       
 |  --------- dx
 |          3   
 |  / 2    \    
 |  \x  + 9/    
 |              
/               
0
$$\int\limits_{0}^{1} \frac{1}{\left(x^{2} + 9\right)^{3}}\, dx$$ 
Integral(1/((x^2 + 9)^3), (x, 0, 1))
Solución detallada

    TrigSubstitutionRule(theta=_theta, func=3*tan(_theta), rewritten=cos(_theta)**4/243, substep=ConstantTimesRule(constant=1/243, other=cos(_theta)**4, substep=RewriteRule(rewritten=(cos(2*_theta)/2 + 1/2)**2, substep=AlternativeRule(alternatives=[RewriteRule(rewritten=cos(2*_theta)**2/4 + cos(2*_theta)/2 + 1/4, substep=AddRule(substeps=[ConstantTimesRule(constant=1/4, other=cos(2*_theta)**2, substep=RewriteRule(rewritten=cos(4*_theta)/2 + 1/2, substep=AddRule(substeps=[ConstantTimesRule(constant=1/2, other=cos(4*_theta), substep=URule(u_var=_u, u_func=4*_theta, constant=1/4, substep=ConstantTimesRule(constant=1/4, other=cos(_u), substep=TrigRule(func='cos', arg=_u, context=cos(_u), symbol=_u), context=cos(_u), symbol=_u), context=cos(4*_theta), symbol=_theta), context=cos(4*_theta)/2, symbol=_theta), ConstantRule(constant=1/2, context=1/2, symbol=_theta)], context=cos(4*_theta)/2 + 1/2, symbol=_theta), context=cos(2*_theta)**2, symbol=_theta), context=cos(2*_theta)**2/4, symbol=_theta), ConstantTimesRule(constant=1/2, other=cos(2*_theta), substep=URule(u_var=_u, u_func=2*_theta, constant=1/2, substep=ConstantTimesRule(constant=1/2, other=cos(_u), substep=TrigRule(func='cos', arg=_u, context=cos(_u), symbol=_u), context=cos(_u), symbol=_u), context=cos(2*_theta), symbol=_theta), context=cos(2*_theta)/2, symbol=_theta), ConstantRule(constant=1/4, context=1/4, symbol=_theta)], context=cos(2*_theta)**2/4 + cos(2*_theta)/2 + 1/4, symbol=_theta), context=(cos(2*_theta)/2 + 1/2)**2, symbol=_theta), RewriteRule(rewritten=cos(2*_theta)**2/4 + cos(2*_theta)/2 + 1/4, substep=AddRule(substeps=[ConstantTimesRule(constant=1/4, other=cos(2*_theta)**2, substep=RewriteRule(rewritten=cos(4*_theta)/2 + 1/2, substep=AddRule(substeps=[ConstantTimesRule(constant=1/2, other=cos(4*_theta), substep=URule(u_var=_u, u_func=4*_theta, constant=1/4, substep=ConstantTimesRule(constant=1/4, other=cos(_u), substep=TrigRule(func='cos', arg=_u, context=cos(_u), symbol=_u), context=cos(_u), symbol=_u), context=cos(4*_theta), symbol=_theta), context=cos(4*_theta)/2, symbol=_theta), ConstantRule(constant=1/2, context=1/2, symbol=_theta)], context=cos(4*_theta)/2 + 1/2, symbol=_theta), context=cos(2*_theta)**2, symbol=_theta), context=cos(2*_theta)**2/4, symbol=_theta), ConstantTimesRule(constant=1/2, other=cos(2*_theta), substep=URule(u_var=_u, u_func=2*_theta, constant=1/2, substep=ConstantTimesRule(constant=1/2, other=cos(_u), substep=TrigRule(func='cos', arg=_u, context=cos(_u), symbol=_u), context=cos(_u), symbol=_u), context=cos(2*_theta), symbol=_theta), context=cos(2*_theta)/2, symbol=_theta), ConstantRule(constant=1/4, context=1/4, symbol=_theta)], context=cos(2*_theta)**2/4 + cos(2*_theta)/2 + 1/4, symbol=_theta), context=(cos(2*_theta)/2 + 1/2)**2, symbol=_theta)], context=(cos(2*_theta)/2 + 1/2)**2, symbol=_theta), context=cos(_theta)**4, symbol=_theta), context=cos(_theta)**4/243, symbol=_theta), restriction=True, context=1/((x**2 + 9)**3), symbol=x)

  1. Ahora simplificar:

  2. Añadimos la constante de integración:

Respuesta:

Respuesta (Indefinida) [src] 
  /                       /x\                               
 |                    atan|-|                      /     2\ 
 |     1                  \3/        x           x*\9 - x / 
 | --------- dx = C + ------- + ------------ + -------------
 |         3            648         /     2\               2
 | / 2    \                     162*\9 + x /       /     2\ 
 | \x  + 9/                                    648*\9 + x / 
 |                                                          
/
$$\int \frac{1}{\left(x^{2} + 9\right)^{3}}\, dx = C + \frac{x \left(9 - x^{2}\right)}{648 \left(x^{2} + 9\right)^{2}} + \frac{x}{162 \left(x^{2} + 9\right)} + \frac{\operatorname{atan}{\left(\frac{x}{3} \right)}}{648}$$
Simplificar
Gráfica
Trazar el gráfico f(x)
Respuesta [src] 
 1     atan(1/3)
---- + ---------
1350      648
$$\frac{\operatorname{atan}{\left(\frac{1}{3} \right)}}{648} + \frac{1}{1350}$$ 
=
= 
 1     atan(1/3)
---- + ---------
1350      648
$$\frac{\operatorname{atan}{\left(\frac{1}{3} \right)}}{648} + \frac{1}{1350}$$ 
1/1350 + atan(1/3)/648
Respuesta numérica [src] 
0.00123726937406889
0.00123726937406889

    Estos ejemplos se pueden aplicar para introducción de los límites de integración inferior y superior.

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