Aus Online Mathematik Brückenkurs 2

Version vom 10:37, 23. Sep. 2008 (bearbeiten) Jamesjmnewton (Diskussion | Beiträge) ← Zum vorherigen Versionsunterschied		Version vom 07:15, 30. Okt. 2008 (bearbeiten) (rückgängig) Tek (Diskussion | Beiträge) K Zum nächsten Versionsunterschied →
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	A general strategy when solving equations is to try to get the unknown variable by itself on one side.		A general strategy when solving equations is to try to get the unknown variable by itself on one side.
-	In this case, we start by subtracting z from both sides,	+	In this case, we start by subtracting <math>z</math> from both sides,
		+	{{Displayed math||<math>z+3i-z=2z-2-z\,\textrm{.}</math>}}
-	<math>z+3i-z=2z-2-z.</math>	+	Then we have a <math>z</math> left on the right-hand side,
		+	{{Displayed math||<math>3i=z-2\,\textrm{.}</math>}}
-	Then we have a z left on the right-hand side,	+	We add <math>2</math> to both sides to remove the <math>-2</math> from the right hand side,
		+	{{Displayed math||<math>3i+2=z-2+2\,,</math>}}
-	<math>3i=z-2</math>.	+	and after that we can just read off the solution,
		+	{{Displayed math||<math>2+3i=z\,\textrm{.}</math>}}
-	We add <math>2</math> to both sides to remove the <math>-2</math> from the right hand side	+	To check that we have calculated correctly, we substitute <math>z=2+3i</math> into the original equation and see that it is satisfied,
-		+	{{Displayed math||<math>\begin{align}
-	<math>3i+2=z-2+2</math>	+	\text{LHS} &= z +3i = 2+3i+3i=2+6i\,,\\[5pt]
-		+	\text{RHS} &= 2z-2 = 2(2+3i)-2 = 4 + 6i -2 = 2+6i\,\textrm{.}
-		+	\end{align}</math>}}
-	and after that we can just read off the solution:	+
-		+
-		+
-	<math>2+3i=z</math>	+
-		+
-		+
-	To check that we have calculated correctly, we substitute z=2+3i into the original equation and see that it is satisfied:	+
-		+
-		+
-	<math>\begin{align}LHS &= z +3i = 2+3i+3i=2+6i,\\	+
-	RHS &= 2z-2 = 2(2+3i)-2 = 4 + 6i -2 = 2+6i.\end{align}</math>	+
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Version vom 07:15, 30. Okt. 2008

A general strategy when solving equations is to try to get the unknown variable by itself on one side.

In this case, we start by subtracting \displaystyle z from both sides,

\displaystyle z+3i-z=2z-2-z\,\textrm{.}

Then we have a \displaystyle z left on the right-hand side,

\displaystyle 3i=z-2\,\textrm{.}

We add \displaystyle 2 to both sides to remove the \displaystyle -2 from the right hand side,

\displaystyle 3i+2=z-2+2\,,

and after that we can just read off the solution,

\displaystyle 2+3i=z\,\textrm{.}

To check that we have calculated correctly, we substitute \displaystyle z=2+3i into the original equation and see that it is satisfied,

\displaystyle \begin{align} \text{LHS} &= z +3i = 2+3i+3i=2+6i\,,\\[5pt] \text{RHS} &= 2z-2 = 2(2+3i)-2 = 4 + 6i -2 = 2+6i\,\textrm{.} \end{align}