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\require{AMSmath}

5. Primitiveren van wortelvormen

Voorbeeld 1

p1486img9.gif $
\eqalign{
  & \int {\frac{{\sqrt {4 - x^2 } }}
{x}} \,dx =   \cr
  & Neem:  \cr
  & x = 2\sin u \to \sin u = \frac{x}
{2}  \cr
  & \sqrt {4 - x^2 }  = 2\cos u = \frac{{dx}}
{{du}}  \cr
  & \int {\frac{{\sqrt {4 - x^2 } }}
{x}} \,dx =   \cr
  & \int {\frac{{2\cos u}}
{{2\sin u}}d(2\sin u) = }   \cr
  & \int {\frac{{2\cos u}}
{{2\sin u}} \cdot 2\cos u\,\,du = }   \cr
  & 2\int {\frac{{\cos ^2 u}}
{{\sin u}}du = }   \cr
  & 2\int {\frac{{1 - \sin ^2 u}}
{{\sin u}}} \,du =   \cr
  & 2\int {\left( {\frac{1}
{{\sin u}} - \sin u} \right)} \,du =   \cr
  & 2\ln \frac{{1 - \cos u}}
{{\left| {\sin u} \right|}} + 2\cos u + K =   \cr
  & 2\ln \frac{{1 - \frac{1}
{2}\sqrt {4 - x^2 } }}
{{\left| {\frac{1}
{2}x} \right|}} + \sqrt {4 - x^2 }  + K  \cr
  & 2\ln \frac{{2 - \sqrt {4 - x^2 } }}
{{\left| x \right|}} + \sqrt {4 - x^2 }  + K \cr}
$


Voorbeeld 2

$
\eqalign{
  & \int {\frac{{\sqrt {2x + 1} }}
{{x + 4}}} \,dx?  \cr
  & Neem\,\,u = \sqrt {2x + 1}  \to x = \frac{1}
{2}u^2  - \frac{1}
{2}  \cr
  & \int {\frac{{\sqrt {2x + 1} }}
{{x + 4}}} dx = \int {\frac{u}
{{\frac{1}
{2}u^2  - \frac{1}
{2} + 4}}} d\left( {\frac{1}
{2}u^2  - \frac{1}
{2}} \right) = \int {\frac{u}
{{\frac{1}
{2}u^2  + 3\frac{1}
{2}}}} u\,du =   \cr
  & \int {\frac{{2u^2 }}
{{u^2  + 7}}} \,du = \int {\left( {2 - \frac{{14}}
{{u^2  + 7}}} \right)du = } 2u - 2\sqrt 7 \arctan \left( {\frac{{\sqrt 7  \cdot u}}
{7}} \right) =   \cr
  & 2\sqrt {2x + 1}  - 2\sqrt 7 \arctan \left( {\frac{{\sqrt 7 \sqrt {2x + 1} }}
{7}} \right) \cr}
$

Voorbeeld 3

$
\eqalign{
  & \int {\frac{{\sqrt {2x + 1} }}
{{x - 4}}} \,dx?  \cr
  & Neem\,\,u = \sqrt {2x + 1}  \to x = \frac{1}
{2}u^2  - \frac{1}
{2}  \cr
  & \int {\frac{{\sqrt {2x + 1} }}
{{x - 4}}} \,dx = \int {\frac{u}
{{\frac{1}
{2}u^2  - \frac{1}
{2} - 4}}} d\left( {\frac{1}
{2}u^2  - \frac{1}
{2}} \right) = \int {\frac{{2u^2 }}
{{u^2  - 9}}du = }   \cr
  & \int {\left( {\frac{3}
{{u - 3}} - \frac{3}
{{u + 3}} + 2} \right)du = 3\ln (u - 3) - 3\ln (u + 3) + 2u = }   \cr
  & 3\ln \frac{{u - 3}}
{{u + 3}} + 2u = 3\ln \frac{{\sqrt {2x + 1}  - 3}}
{{\sqrt {2x + 1}  + 3}} + 2\sqrt {2x + 1}  \cr}
$


Voorbeeld 4

$
\eqalign{
  & \int {\sqrt {x^2  - 8x + 25} } \,dx = \int {\sqrt {(x - 4)^2  + 9} } \,dx =   \cr
  & {\text{Neem}}\,\,{\text{t = x - 4}}  \cr
  & \int {\sqrt {t^2  + 9} } \,dt = \int {\sqrt {t^2  + 3^2 } } \,dt =   \cr
  & {\text{standaardintegraal}}\,\,{\text{1}}{\text{.25}}  \cr
  & \frac{t}
{2}\sqrt {3^2  + t^2 }  + \frac{{3^2 }}
{2}\ln \left( {t + \sqrt {3^2  + t^2 } } \right) + C =   \cr
  & \frac{{\left( {x - 4} \right)}}
{2}\sqrt {3^2  + \left( {x - 4} \right)^2 }  + \frac{9}
{2}\ln \left( {x - 4 + \sqrt {3^2  + \left( {x - 4} \right)^2 } } \right) + C =   \cr
  & \frac{{\left( {x - 4} \right)}}
{2}\sqrt {x^2  - 8x + 25}  + \frac{9}
{2}\ln \left( {x - 4 + \sqrt {x^2  - 8x + 25} } \right) + C \cr}
$

F.A.Q.


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