Fixed point: Difference between revisions
imported>Dmitrii Kouznetsov |
imported>Dmitrii Kouznetsov |
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==Fixed points of [[exponential]] and fixed points of [[logarithm]]== | ==Fixed points of [[exponential]] and fixed points of [[logarithm]]== | ||
[[Image:FixedPointsLoge00.png| | [[Image:FixedPointsLoge00.png|300px|left|thumb|FIg.1. <math>f=|z-\ln(z)|</math> is shown with levels | ||
<math>f=0.5</math>, | <math>f=0.5</math>, | ||
<math>f=1</math>, | <math>f=1</math>, | ||
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<math>f=16</math> | <math>f=16</math> | ||
in the complex <math>z</math>-plane | in the complex <math>z</math>-plane | ||
]]<!-- | |||
[[Image:FixedPointsExpe00.jpg|300px|right|thumb|Graphical search for fixed points of [[exponential]]. Function <math>f=|z-\exp(z)|</math> is shown with levels | |||
<math>f=0.5</math>, | |||
<math>f=1</math>, | |||
<math>f=2</math>, | |||
<math>f=4</math>, | |||
<math>f=8</math>, | |||
<math>f=16</math> | |||
in the complex <math>z</math>-plane | |||
]]!--> | |||
[[Image:FixedPointsExpe00.jpg|300px|right|thumb|Fig.1. The same as FIg.1 for function <math>f=|z-\exp(z)|</math> | |||
]] | ]] | ||
[[ | |||
Fixed points can be searched graphically. Fig.1 shows the graphical search of fixed points of [[logarithm]], | |||
i.e., soluitons of the equaiton | |||
:(10) <math> L=\ln(L) </math> | |||
There are no real solutions fot this equation, but there are two complex-congjugated solutions | |||
<math>L_{\rm e}</math> and <math>L_{\rm e}^*</math>. However, the value of <math>L_{\rm e}</math> cannot be estimated well from the figure (1), but the straigtgorward iteration allows the precise estimate. Few hundreds of iterations are sufficient to get error of order of last significant figure in the | |||
approximation | |||
:(11) <math>L_{\rm e} \approx 0.318131505204764135312654+1.33723570143068940890116 \!~\rm i</math> | |||
Fixed points of logarithm should not be confised with fixed points of exponential, shown in FIgure 2. | |||
Therse fixed points are solutions of equaitons | |||
:(12) <math>L=\exp(L)</math> | |||
They can be expressed also as solution of equation | |||
:(13) <math>L=\log(L)+2\pi \!~\rm i ~m~</math> for some integer <math>m</math> | |||
For example, | |||
:(13)<math>L_{\rm e, 2}\approx | |||
2.062277729598284 + 7.5886311784725127 \!~\rm i | |||
</math> | |||
is fixed point of the exponential, but is not the fixed point of natural logarithm. | |||
==Notes== | ==Notes== | ||
<references/> | <references/> |
Revision as of 04:52, 31 May 2008
Fixed point of a functor is solution of equation
- (1)
Simple examples
Elementary functions
In particular, functor can be elementaty function. For example, 0 and 1 are fixed points of function sqrt, because and .
In similar way, 0 is fixed point of sine function, because .
Operators
Functor in the equation (1) can be a linear operator. In this case, the fixed point of functor is its eigenfunction with eigenvalue equal to unity.
Exponential if fixed point or operator of differentiation D, because
- (2) , reals
is fixed point of the Fourier operator, defined with its action on a function :
- (3)
in general, functors have no need to be linear, so, there is no associativity at application of several functors in row, and parenthesis are necessary in the left hand side of eapression (3). [1]
Fixed points of exponential and fixed points of logarithm
Fixed points can be searched graphically. Fig.1 shows the graphical search of fixed points of logarithm, i.e., soluitons of the equaiton
- (10)
There are no real solutions fot this equation, but there are two complex-congjugated solutions and . However, the value of cannot be estimated well from the figure (1), but the straigtgorward iteration allows the precise estimate. Few hundreds of iterations are sufficient to get error of order of last significant figure in the approximation
- (11)
Fixed points of logarithm should not be confised with fixed points of exponential, shown in FIgure 2. Therse fixed points are solutions of equaitons
- (12)
They can be expressed also as solution of equation
- (13) for some integer
For example,
- (13)
is fixed point of the exponential, but is not the fixed point of natural logarithm.
Notes
- ↑ Note that that there is certain ambiguity in commonly used writing of mathematical formulas, omiting sign * of multiplication; in equation (3), expression does not mean that is multiplied to value of ; it means that result of action of operator on function , whith is also function, is evaluated at argument .