Maple Professional
Maple Academic
Maple Student Edition
Maple Personal Edition
Maple Player
Maple Player for iPad
MapleSim Professional
MapleSim Academic
Maple T.A. - Testing & Assessment
Maple T.A. MAA Placement Test Suite
Möbius - Online Courseware
Machine Design / Industrial Automation
Aerospace
Vehicle Engineering
Robotics
Power Industries
System Simulation and Analysis
Model development for HIL
Plant Modeling for Control Design
Robotics/Motion Control/Mechatronics
Other Application Areas
Mathematics Education
Engineering Education
High Schools & Two-Year Colleges
Testing & Assessment
Students
Financial Modeling
Operations Research
High Performance Computing
Physics
Live Webinars
Recorded Webinars
Upcoming Events
MaplePrimes
Maplesoft Blog
Maplesoft Membership
Maple Ambassador Program
MapleCloud
Technical Whitepapers
E-Mail Newsletters
Maple Books
Math Matters
Application Center
MapleSim Model Gallery
User Case Studies
Exploring Engineering Fundamentals
Teaching Concepts with Maple
Maplesoft Welcome Center
Teacher Resource Center
Student Help Center
Sqrfree - square-free factorization of polynomials over algebraic extensions
Calling Sequence
evala(Sqrfree(P, x), opts)
Parameters
P
-
expression involving algebraic numbers or algebraic functions.
x
(optional) name, set of names, or list of names.
opts
(optional) option name or set of option names.
Options currently supported: independent, expanded.
Description
This function computes square-free factorizations of polynomials and rational functions over algebraic function fields or algebraic number fields. The square-free factorization is returned in the form such that where is a monic and square-free polynomial in the variables . In other words, Gcd for all and for all . The coefficient is an element of the coefficients field of and it is free of . The 's are collected with respect to .
Algebraic functions and algebraic numbers may be represented by radicals or with the RootOf notation (see type,algnum, type,algfun, type,radnum, type,radfun).
The argument is considered as a polynomial or a rational function in . Other names are considered as elements of the coefficient field. If the optional argument is omitted, then all the names in which do not appear inside a RootOf or a radical are used.
The 's are positive integers if is a polynomial in and integers if is a rational function in . By default, the 's may not be distinct since partial factorizations are preserved. If the option expanded is specified, factorizations of polynomials with the same multiplicity are not preserved. In any case, the 's are sorted by nondecreasing value.
Algebraic numbers and functions occurring in the results are reduced modulo their minimal polynomial (see Normal).
The RootOf and the radicals defining the algebraic numbers must form an independent set of algebraic quantities, otherwise an error is returned. Note that this condition need not be satisfied if the expression contains only algebraic numbers in radical notation (e.g., , , ). A basis over Q for the radicals can be computed by Maple in this case.
To skip the independence checking, use the option independent.
If or contains functions, their arguments are normalized recursively and the functions are frozen before the computation proceeds.
Since the ordering of objects may vary from a session to another, the leading coefficients may change accordingly.
Other objects are frozen and considered as variables.
Examples
If a polynomial defining a RootOf is reducible, the RootOf does not generate a well-defined field. In some cases, an error is returned:
Error, (in evala/Sqrfree/preproc) reducible RootOf detected. Substitutions are {RootOf(_Z^2-_Z) = 0, RootOf(_Z^2-_Z) = 1}
To pretend that all the defining polynomials are irreducible, use the option 'independent':
Alternatively, use indexed RootOfs:
See Also
evala, Factor, RootOf, sqrfree
Download Help Document
