ergodic |
traversal |
As an adjective ergodic
is (mathematics|physics) of or relating to certain systems that, given enough time, will eventually return to previously experienced state.
As a noun traversal is
the act of traversing]]; a [[cross|crossing.
irreducible |
ergodic |
As adjectives the difference between irreducible and ergodic
is that
irreducible is not able to be reduced or lessened while
ergodic is of or relating to certain systems that, given enough time, will eventually return to previously experienced state.
As a noun irreducible
is such a polynomial.
ergodic |
ergotic |
As adjectives the difference between ergodic and ergotic
is that
ergodic is of or relating to certain systems that, given enough time, will eventually return to previously experienced state while
ergotic is pertaining to, or derived from, ergot.
taxonomy |
ergodic |
As a noun taxonomy
is the science or the technique used to make a classification.
As an adjective ergodic is
of or relating to certain systems that, given enough time, will eventually return to previously experienced state.
ergodic |
ergodically |
As an adjective ergodic
is (mathematics|physics) of or relating to certain systems that, given enough time, will eventually return to previously experienced state.
As an adverb ergodically is
in an ergodic way.
ergodic |
nonergodic |
As adjectives the difference between ergodic and nonergodic
is that
ergodic is of or relating to certain systems that, given enough time, will eventually return to previously experienced state while
nonergodic is not ergodic.
ergodic |
ergodicity |
As an adjective ergodic
is (mathematics|physics) of or relating to certain systems that, given enough time, will eventually return to previously experienced state.
As a noun ergodicity is
(uncountable) the condition of being ergodic.
ergodic |
multitaper |
As an adjective ergodic
is (mathematics|physics) of or relating to certain systems that, given enough time, will eventually return to previously experienced state.
As a noun multitaper is
(signal processing) a technique to estimate the power spectrum of a stationary ergodic finite-variance random process, using several different data tapers which are orthogonal to each other.
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