slovo | definícia |
chaos (mass) | chaos
- chaos |
chaos (msas) | chaos
- chaos |
chaos (msasasci) | chaos
- chaos |
chaos (encz) | chaos,chaos n: Zdeněk Brož |
chaos (encz) | chaos,zmatek n: Zdeněk Brož |
chaos (czen) | chaos,anarchy Zdeněk Brož |
chaos (czen) | chaos,chaosn: Zdeněk Brož |
chaos (czen) | chaos,mayhemn: Zdeněk Brož |
chaos (czen) | chaos,mishmashn: Zdeněk Brož |
chaos (czen) | chaos,mussn: Zdeněk Brož |
chaos (czen) | chaos,pandemoniumn: Zdeněk Brož |
chaos (czen) | chaos,shamblen: Zdeněk Brož |
chaos (czen) | chaos,tohubohun: pův. hebrew Jakub Kalousek |
Chaos (gcide) | Chaos \Cha"os\ (k[=a]"[o^]s), n. [L. chaos chaos (in senses 1 &
2), Gr. cha`os, fr. cha`inein (root cha) to yawn, to gape, to
open widely. Cf. Chasm.]
1. An empty, immeasurable space; a yawning chasm. [Archaic]
[1913 Webster]
Between us and there is fixed a great chaos. --Luke
xvi. 26
(Rhemish
Trans.).
[1913 Webster]
2. The confused, unorganized condition or mass of matter
before the creation of distinct and orderly forms.
[1913 Webster]
3. Any confused or disordered collection or state of things;
a confused mixture; confusion; disorder.
[1913 Webster] |
chaos (wn) | chaos
n 1: a state of extreme confusion and disorder [syn: chaos,
pandemonium, bedlam, topsy-turvydom, {topsy-
turvyness}]
2: the formless and disordered state of matter before the
creation of the cosmos
3: (Greek mythology) the most ancient of gods; the
personification of the infinity of space preceding creation
of the universe
4: (physics) a dynamical system that is extremely sensitive to
its initial conditions |
chaos (foldoc) | chaos
A property of some non-linear dynamic systems
which exhibit sensitive dependence on initial conditions.
This means that there are initial states which evolve within
some finite time to states whose separation in one or more
dimensions of state space depends, in an average sense,
exponentially on their initial separation.
Such systems may still be completely deterministic in that
any future state of the system depends only on the initial
conditions and the equations describing the change of the
system with time. It may, however, require arbitrarily high
precision to actually calculate a future state to within some
finite precision.
["On defining chaos", R. Glynn Holt
and D. Lynn Holt
.
(ftp://mrcnext.cso.uiuc.edu/pub/etext/ippe/preprints/Phil_of_Science/Holt_and_Holt.On_Defining_Chaos)]
Fixed precision floating-point arithmetic, as used by most
computers, may actually introduce chaotic dependence on
initial conditions due to the accumulation of rounding errors
(which constitutes a non-linear system).
(1995-02-07)
|
| podobné slovo | definícia |
chaos (mass) | chaos
- chaos |
chaos (msas) | chaos
- chaos |
chaos (msasasci) | chaos
- chaos |
chaos (encz) | chaos,chaos n: Zdeněk Brožchaos,zmatek n: Zdeněk Brož |
chaos (czen) | chaos,anarchy Zdeněk Brožchaos,chaosn: Zdeněk Brožchaos,mayhemn: Zdeněk Brožchaos,mishmashn: Zdeněk Brožchaos,mussn: Zdeněk Brožchaos,pandemoniumn: Zdeněk Brožchaos,shamblen: Zdeněk Brožchaos,tohubohun: pův. hebrew Jakub Kalousek |
obvyklý chaos (czen) | obvyklý chaos,snafun: [amer.] [voj.] [slang.] Petr Prášek |
chaos (wn) | chaos
n 1: a state of extreme confusion and disorder [syn: chaos,
pandemonium, bedlam, topsy-turvydom, {topsy-
turvyness}]
2: the formless and disordered state of matter before the
creation of the cosmos
3: (Greek mythology) the most ancient of gods; the
personification of the infinity of space preceding creation
of the universe
4: (physics) a dynamical system that is extremely sensitive to
its initial conditions |
chaos (foldoc) | chaos
A property of some non-linear dynamic systems
which exhibit sensitive dependence on initial conditions.
This means that there are initial states which evolve within
some finite time to states whose separation in one or more
dimensions of state space depends, in an average sense,
exponentially on their initial separation.
Such systems may still be completely deterministic in that
any future state of the system depends only on the initial
conditions and the equations describing the change of the
system with time. It may, however, require arbitrarily high
precision to actually calculate a future state to within some
finite precision.
["On defining chaos", R. Glynn Holt
and D. Lynn Holt
.
(ftp://mrcnext.cso.uiuc.edu/pub/etext/ippe/preprints/Phil_of_Science/Holt_and_Holt.On_Defining_Chaos)]
Fixed precision floating-point arithmetic, as used by most
computers, may actually introduce chaotic dependence on
initial conditions due to the accumulation of rounding errors
(which constitutes a non-linear system).
(1995-02-07)
|
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