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Aus Online Mathematik Brückenkurs 2

Version vom 14:45, 16. Sep. 2008 (bearbeiten) Tekbot (Diskussion | Beiträge) K (Lösning 2.2:4c moved to Solution 2.2:4c: Robot: moved page) ← Zum vorherigen Versionsunterschied		Version vom 12:51, 21. Okt. 2008 (bearbeiten) (rückgängig) Ian (Diskussion | Beiträge) Zum nächsten Versionsunterschied →
Zeile 1:		Zeile 1:
-	{{NAVCONTENT_START}}	+	The trick is to complete the square in the denominator so that we obtain the same expression as in exercise b,
-	<center> [[Image:2_2_4c-1(2).gif]] </center>	+
-	{{NAVCONTENT_STOP}}	+
-	{{NAVCONTENT_START}}	+	<math>\int{\frac{\,dx}{x^{2}+4x+8}}=\int{\frac{\,dx}{\left( x+2 \right)^{2}-2^{2}+8}}=\int{\frac{\,dx}{\left( x+2 \right)^{2}+4}}</math>
-	<center> [[Image:2_2_4c-2(2).gif]] </center>	+
-	{{NAVCONTENT_STOP}}	+
		+	We take out a factor
		+	<math>\text{4}</math>
		+	from the denominator
		+
		+
		+	<math>\int{\frac{\,dx}{\left( x+2 \right)^{2}+4}}=\int{\frac{\,dx}{4\left( \frac{1}{4}\left( x+2 \right)^{2}+1 \right)}}=\frac{1}{4}\int{\frac{\,dx}{\frac{1}{4}\left( x+2 \right)^{2}+1}}</math>
		+
		+
		+	and rewrite the quadratic term as
		+
		+
		+	<math>\frac{1}{4}\int{\frac{\,dx}{\frac{1}{4}\left( x+2 \right)^{2}+1}}=\frac{1}{4}\int{\frac{\,dx}{\left( \frac{x+2}{2} \right)^{2}+1}}</math>
		+
		+
		+	If we now substitute
		+	<math>u=\frac{x+2}{2}</math>, we obtain the integral in the exercise
		+
		+
		+	<math>\begin{align}
		+	& \frac{1}{4}\int{\frac{\,dx}{\left( \frac{x+2}{2} \right)^{2}+1}}=\left\{ \begin{matrix}
		+	u=\frac{x+2}{2} \\
		+	du=\frac{\,dx}{2} \\
		+	\end{matrix} \right\} \\
		+	& =\frac{1}{4}\int{\frac{\,2dx}{u^{2}+1}}=\frac{1}{2}\int{\frac{\,dx}{u^{2}+1}} \\
		+	& =\frac{1}{2}\arctan u+C \\
		+	& =\frac{1}{2}\arctan \frac{x+2}{2}+C \\
		+	\end{align}</math>

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Version vom 12:51, 21. Okt. 2008

The trick is to complete the square in the denominator so that we obtain the same expression as in exercise b,

dxx2+4x+8=dxx+22−22+8=dxx+22+4 

We take out a factor 4 from the denominator

dxx+22+4=dx441x+22+1=41dx41x+22+1 

and rewrite the quadratic term as

41dx41x+22+1=41dx2x+22+1 

If we now substitute u=2x+2, we obtain the integral in the exercise

41dx2x+22+1=u=2x+2du=2dx=412dxu2+1=21dxu2+1=21arctanu+C=21arctan2x+2+C