Encyclopedia of Physical Science and Technology, Volume 3Academic Press, 1992 - Physical sciences |
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Page 88
... initial conditions by accident is nil . ) = It is very easy to see that the time sequences generated by the vast majority of possible initial conditions is as random as the time sequence generated by flipping a coin . Simply write the ...
... initial conditions by accident is nil . ) = It is very easy to see that the time sequences generated by the vast majority of possible initial conditions is as random as the time sequence generated by flipping a coin . Simply write the ...
Page 89
... initial conditions alone would not be sufficient to guarantee mixing be- havior . For example , if we iterated Eq . ( 2 ) with- out the Mod 1 , then all trajectories would di- verge exponentially , but the red points would never be able ...
... initial conditions alone would not be sufficient to guarantee mixing be- havior . For example , if we iterated Eq . ( 2 ) with- out the Mod 1 , then all trajectories would di- verge exponentially , but the red points would never be able ...
Page 102
baking analogy we could imagine that ( xo , yo ) specifies the initial coordinate of a raisin in the dough . ] For almost all initial conditions , the tra- jectories generated by this simple , deterministic map will be chaotic . Because ...
baking analogy we could imagine that ( xo , yo ) specifies the initial coordinate of a raisin in the dough . ] For almost all initial conditions , the tra- jectories generated by this simple , deterministic map will be chaotic . Because ...
Contents
Guide to Using the Encyclopedia ix Cloud Physics | 353 |
Coal Geology | 371 |
Celestial Mechanics 1 Colin R Ward | 409 |
Copyright | |
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Encyclopedia of Physical Science and Technology, Volume 3 Robert Allen Meyers No preview available - 1987 |
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application called carbon cause ceramic charge chemical chromatography circuit cloud coal color column combustion comet complex components constant delta density depends described determined developed devices direction distribution dynamics effect electric electron elements energy engine equation example field filter flow frequency fuel function given heat important increase initial interaction light limit liquid mass material means measured mechanics methods modulation molecules natural observed occur operation orbit organic parameters particles period phase physical position possible potential pressure problem produced properties range ratio reaction receiver region relative result sample satellite separation shown shows signal solid solution space structure surface Table temperature theory tion transfer transition typically unit usually values voltage wave