isomorphic algebras - definição. O que é isomorphic algebras. Significado, conceito
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O que (quem) é isomorphic algebras - definição

Computably isomorphic

Isomorphic keyboard         
MUSICAL INPUT DEVICE CONSISTING OF A 2D GRID OF BUTTONS OR KEYS ON WHICH ANY GIVEN SEQUENCE/COMBINATION OF MUSICAL INTERVALS HAS THE "SAME SHAPE" ON THE KEYBOARD WHEREVER IT OCCURS—WITHIN A KEY, ACROSS KEYS, ACROSS OCTAVES, AND ACROSS TUNINGS
Isomorphic keyboards; Tuning invariance; Tuning-invariant; Tuning invariant
An isomorphic keyboard is a musical input device consisting of a two-dimensional grid of note-controlling elements (such as buttons or keys) on which any given sequence and/or combination of musical intervals has the "same shape" on the keyboard wherever it occurs – within a key, across keys, across octaves, and across tunings.
Sheaf of algebras         
In algebraic geometry, a sheaf of algebras on a ringed space X is a sheaf of commutative rings on X that is also a sheaf of \mathcal{O}_X-modules. It is quasi-coherent if it is so as a module.
Algebra homomorphism         
RING HOMOMORPHISM PRESERVING SCALAR MULTIPLICATION
Algebra isomorphism; Homomorphism of algebras; Algebra endomorphism; Algebra automorphism
In mathematics, an algebra homomorphism is a homomorphism between two associative algebras. More precisely, if and are algebras over a field (or commutative ring) , it is a function F\colon A\to B such that for all in and in ,

Wikipédia

Computable isomorphism

In computability theory two sets A ; B N {\displaystyle A;B\subseteq \mathbb {N} } of natural numbers are computably isomorphic or recursively isomorphic if there exists a total bijective computable function f : N N {\displaystyle f\colon \mathbb {N} \to \mathbb {N} } with f ( A ) = B {\displaystyle f(A)=B} . By the Myhill isomorphism theorem, the relation of computable isomorphism coincides with the relation of mutual one-one reducibility.

Two numberings ν {\displaystyle \nu } and μ {\displaystyle \mu } are called computably isomorphic if there exists a computable bijection f {\displaystyle f} so that ν = μ f {\displaystyle \nu =\mu \circ f}

Computably isomorphic numberings induce the same notion of computability on a set.