Aus Online Mathematik Brückenkurs 1

Version vom 09:04, 9. Sep. 2008 (bearbeiten) Tekbot (Diskussion | Beiträge) K (Lösning 2.3:8c moved to Solution 2.3:8c: Robot: moved page) ← Zum vorherigen Versionsunterschied		Version vom 11:36, 21. Sep. 2008 (bearbeiten) (rückgängig) Ian (Diskussion | Beiträge) Zum nächsten Versionsunterschied →
Zeile 1:		Zeile 1:
-	{{NAVCONTENT_START}}	+	By completing the square, we can rewrite the function as
-	<center> [[Image:2_3_8c.gif]] </center>	+
-	{{NAVCONTENT_STOP}}	+
		+	<math>f\left( x \right)=x^{2}-6x+11=\left( x-3 \right)^{2}-3^{2}+11=\left( x-3 \right)^{2}+2,</math>
		+
		+	and when the function is written in this way, we can see that the graph
		+	<math>y=\left( x-3 \right)^{2}+2</math>
		+	is the same curve as the parabola
		+	<math>y=x^{2}</math>, but shifted two units up and three units to the right (see sub-exercise d and e).
		+
		+
	[[Image:2_3_8_c.gif|center]]		[[Image:2_3_8_c.gif|center]]

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Version vom 11:36, 21. Sep. 2008

By completing the square, we can rewrite the function as

\displaystyle f\left( x \right)=x^{2}-6x+11=\left( x-3 \right)^{2}-3^{2}+11=\left( x-3 \right)^{2}+2,

and when the function is written in this way, we can see that the graph \displaystyle y=\left( x-3 \right)^{2}+2 is the same curve as the parabola \displaystyle y=x^{2}, but shifted two units up and three units to the right (see sub-exercise d and e).