Polynomial ring: Difference between revisions

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In [[algebra]], the '''polynomial ring''' over a [[ring (mathematics)|ring]] is a construction of a ring which formalises the [[polynomial]]s of [[elementary algebra]].
In [[algebra]], the '''polynomial ring''' over a [[ring (mathematics)|ring]] is a construction of a ring which formalises the [[polynomial]]s of [[elementary algebra]].


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We can view the construction by sequences from various points of view
We can view the construction by sequences from various points of view


We may consider the set of sequences described above as the set of ''R''-valued functions on the set '''N''' of [[natural number]]s (including zero) and defining the ''support'' of a function to be the set of arguments where it is non-zero.  We then restrict to functions of finite support under [[pointwise operation|pointwise]] addition and convolution.
We may consider the set of sequences described above as the set of ''R''-valued functions on the set '''N''' of [[natural number]]s (including zero) and defining the ''[[support (mathematics)|support]]'' of a function to be the set of arguments where it is non-zero.  We then restrict to functions of finite support under [[pointwise operation|pointwise]] addition and convolution.
   
   
We may further consider '''N''' to be the [[free monoid]] on one generator.  The functions of finite support on a monoid ''M'' form the [[monoid ring]] ''R''[''M''].
We may further consider '''N''' to be the [[free monoid]] on one generator.  The functions of finite support on a monoid ''M'' form the [[monoid ring]] ''R''[''M''].
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==References==
==References==
* {{cite book | author=Serge Lang | authorlink=Serge Lang | title=Algebra | edition=3rd ed | publisher=[[Addison-Wesley]] | year=1993 | isbn=0-201-55540-9 | pages=97-98 }}
* {{cite book | author=Serge Lang | authorlink=Serge Lang | title=Algebra | edition=3rd ed | publisher=[[Addison-Wesley]] | year=1993 | isbn=0-201-55540-9 | pages=97-98 }}[[Category:Suggestion Bot Tag]]

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In algebra, the polynomial ring over a ring is a construction of a ring which formalises the polynomials of elementary algebra.

Construction of the polynomial ring

Let R be a ring. Consider the R-module of sequences

which have only finitely many non-zero terms, under pointwise addition

We define the degree of a non-zero sequence (an) as the the largest integer d such that ad is non-zero.

We define "convolution" of sequences by

Convolution is a commutative, associative operation on sequences which is distributive over addition.

Let X denote the sequence

We have

and so on, so that

which makes sense as a finite sum since only finitely many of the an are non-zero.

The ring defined in this way is denoted .

Alternative points of view

We can view the construction by sequences from various points of view

We may consider the set of sequences described above as the set of R-valued functions on the set N of natural numbers (including zero) and defining the support of a function to be the set of arguments where it is non-zero. We then restrict to functions of finite support under pointwise addition and convolution.

We may further consider N to be the free monoid on one generator. The functions of finite support on a monoid M form the monoid ring R[M].

Properties

  • If is a ring homomorphism then there is a homomorphism, also denoted by f, from which extends f. Any homomorphism on A[X] is determined by its restriction to A and its value at X.

Multiple variables

The polynomial ring construction may be iterated to define

but a more general construction which allows the construction of polynomials in any set of variables is to follow the initial construction by taking S to be the Cartesian power and then to consider the R-valued functions on S with finite support.

We see that there are natural isomorphisms

We may also view this construction as taking the free monoid S on the set Λ and then forming the monoid ring R[S].


References