Integral de sqrt(2+x^2)*dx/x dx

TrigSubstitutionRule(theta=_theta, func=sqrt(2)*tan(_theta), rewritten=sqrt(2)/(cos(_theta)**3*tan(_theta)), substep=ConstantTimesRule(constant=sqrt(2), other=1/(cos(_theta)**3*tan(_theta)), substep=RewriteRule(rewritten=tan(_theta)*sec(_theta)**3/(sec(_theta)**2 - 1), substep=URule(u_var=_u, u_func=sec(_theta), constant=1, substep=RewriteRule(rewritten=1 - 1/(2*(_u + 1)) + 1/(2*(_u - 1)), substep=AddRule(substeps=[ConstantRule(constant=1, context=1, symbol=_u), ConstantTimesRule(constant=-1/2, other=1/(_u + 1), substep=URule(u_var=_u, u_func=_u + 1, constant=1, substep=ReciprocalRule(func=_u, context=1/_u, symbol=_u), context=1/(_u + 1), symbol=_u), context=-1/(2*(_u + 1)), symbol=_u), ConstantTimesRule(constant=1/2, other=1/(_u - 1), substep=URule(u_var=_u, u_func=_u - 1, constant=1, substep=ReciprocalRule(func=_u, context=1/_u, symbol=_u), context=1/(_u - 1), symbol=_u), context=1/(2*(_u - 1)), symbol=_u)], context=1 - 1/(2*(_u + 1)) + 1/(2*(_u - 1)), symbol=_u), context=_u**2/(_u**2 - 1), symbol=_u), context=tan(_theta)*sec(_theta)**3/(sec(_theta)**2 - 1), symbol=_theta), context=sec(_theta)**3/tan(_theta), symbol=_theta), context=sqrt(2)/(cos(_theta)**3*tan(_theta)), symbol=_theta), restriction=True, context=sqrt(x**2 + 2)/x, symbol=x)

1. Ahora simplificar:

   $\frac{\sqrt{2} \left(\sqrt{2} \sqrt{x^{2} + 2} + \log{\left(\frac{\sqrt{2} \sqrt{x^{2} + 2}}{2} - 1 \right)} - \log{\left(\frac{\sqrt{2} \sqrt{x^{2} + 2}}{2} + 1 \right)}\right)}{2}$

2. Añadimos la constante de integración:

   $\frac{\sqrt{2} \left(\sqrt{2} \sqrt{x^{2} + 2} + \log{\left(\frac{\sqrt{2} \sqrt{x^{2} + 2}}{2} - 1 \right)} - \log{\left(\frac{\sqrt{2} \sqrt{x^{2} + 2}}{2} + 1 \right)}\right)}{2}+ \mathrm{constant}$

Respuesta:

$\frac{\sqrt{2} \left(\sqrt{2} \sqrt{x^{2} + 2} + \log{\left(\frac{\sqrt{2} \sqrt{x^{2} + 2}}{2} - 1 \right)} - \log{\left(\frac{\sqrt{2} \sqrt{x^{2} + 2}}{2} + 1 \right)}\right)}{2}+ \mathrm{constant}$