Lösung 1.3:3c
Aus Online Mathematik Brückenkurs 2
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| - | { | + | The only points which can possibly be local extreme points of the function are one of the following: |
| - | < | + | |
| - | {{ | + | 1. Critical points, i.e. where |
| - | { | + | <math>{f}'\left( x \right)=0</math>; |
| - | < | + | |
| - | {{ | + | 2. Points where the function is not differentiable; |
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| + | 3. Endpoints of the interval of definition. | ||
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| + | What determines the function's region of definition is | ||
| + | <math>\ln x</math>, which is defined for | ||
| + | <math>x>0</math>, and this region does not have any endpoints ( | ||
| + | <math>x=0</math> | ||
| + | does not satisfy | ||
| + | <math>x>0</math> | ||
| + | ), so item 3. above does not give rise to any imaginable extreme points. Furthermore, the function is differentiable everywhere (where it is defined), because it consists of | ||
| + | <math>x</math> | ||
| + | and | ||
| + | <math>\ln x</math> | ||
| + | which are differentiable functions; so, item 2. above does not contribute any extreme points either. | ||
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| + | All the remains are possibly critical points. We differentiate the function | ||
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| + | <math>{f}'\left( x \right)=1\centerdot \ln x+x\centerdot \frac{1}{x}-0=\ln x+1</math> | ||
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| + | and see that the derivative is zero when | ||
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| + | <math>\ln x=-1\quad \Leftrightarrow \quad x=e^{-1}</math> | ||
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| + | In order to determine whether this is a local maximum, minimum or saddle point, we calculate the second derivative, | ||
| + | <math>{f}''\left( x \right)={1}/{x}\;</math> | ||
| + | which gives that | ||
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| + | <math>{f}''\left( e^{-1} \right)=\frac{1}{e^{-1}}=e>0</math> | ||
| + | |||
| + | |||
| + | which implies that | ||
| + | <math>x=e^{-1}</math> | ||
| + | is a local minimum. | ||
Version vom 11:54, 15. Okt. 2008
The only points which can possibly be local extreme points of the function are one of the following:
1. Critical points, i.e. where \displaystyle {f}'\left( x \right)=0;
2. Points where the function is not differentiable;
3. Endpoints of the interval of definition.
What determines the function's region of definition is \displaystyle \ln x, which is defined for \displaystyle x>0, and this region does not have any endpoints ( \displaystyle x=0 does not satisfy \displaystyle x>0 ), so item 3. above does not give rise to any imaginable extreme points. Furthermore, the function is differentiable everywhere (where it is defined), because it consists of \displaystyle x and \displaystyle \ln x which are differentiable functions; so, item 2. above does not contribute any extreme points either.
All the remains are possibly critical points. We differentiate the function
\displaystyle {f}'\left( x \right)=1\centerdot \ln x+x\centerdot \frac{1}{x}-0=\ln x+1
and see that the derivative is zero when
\displaystyle \ln x=-1\quad \Leftrightarrow \quad x=e^{-1}
In order to determine whether this is a local maximum, minimum or saddle point, we calculate the second derivative, \displaystyle {f}''\left( x \right)={1}/{x}\; which gives that
\displaystyle {f}''\left( e^{-1} \right)=\frac{1}{e^{-1}}=e>0
which implies that
\displaystyle x=e^{-1}
is a local minimum.
