# right inverse

## right inverse

[¦rīt ′in‚vers]
(mathematics)
For a set S with a binary operation x ° y that has an identity element e, the right inverse of a member, x of S is another member, , of S for which x ° = e.
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References in periodicals archive ?
More precisely, we are interested in the following problem: does P(D) admit a continuous linear right inverse, i.
1 below) that for K with the extension property every linear partial differential operator P(D) with constant coefficients on [epsilon](K) has a continuous linear right inverse.
It is called a right inverse property quasigroup (loop) [RIPQ (RIPL)] if and only if it obeys the right inverse property (RIP) yx*[x.
It is called a second Smarandache right inverse property quasigroup (loop) [[S.
A quasigroup (Q, -)has the left inverse property,the right inverse property or the cross inverse property, if for any x [member of] Q there exists an element x-1 such that [MATHEMATICAL EXPRESSION NOT REPRODUCIBLE IN ASCII.
There is a simple choice for the right inverse G, namely,
There exist local right inverses G of F which are defined in some open set containing R, which map from this open set to (x,.
This is applied to the right inverse problem for convolution operators on real analytic functions.
1 is also continuous as a mapping into A(] - [infinity], b]) x A([a, [infinity][) and it is a right inverse for T : A(] - [infinity], b]) x A ([a, [infinity] [) [right arrow] A ([a, b]).
It is clear that a right C-rpp semigroup is a generalization of a right inverse semigroup (see [8]).
A loop is called a Smarandache right inverse property loop (SRIPL) if it has at least a non-trivial subloop with the RIP.
The proof for a Smarandache right inverse property loop is similar and is as follows.

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