free module

In mathematics, a free module is a module having a free basis. For an R-module M, the set E = {e₁, e₂, ... e_n} is a free basis for M if and only if: 1) E is a generating set for M, that is to say every element of M is a sum of elements of E multiplied by coefficients in R. 2) if r₁e₁ + r₂e₂ + ... + r_ne_n = 0, then r₁ = r₂ = ... = r_n = 0 (where 0 is the identity element of M and 0 is the identity element of R). If M has a free basis with n elements, then M is said to be free of rank n, or more generally free of finite rank. Note that an immediate corollary of (2) is that the coefficients in (1) are unique for each x. The definition of an infinite free basis is similar, except that E will have infinitely many elements. However the sum must be finite, and thus for any particular x only finitely many of the elements of E are involved. In the case of an infinite basis, the rank of M is the cardinality of E.

<< Previous

Word Browser

Next >>

ion source
weekly shonen jump
lagrange's four square theorem
bentham
thrapston
dixieland records
list of noteworthy asteroids
kimbolton
organized rhyme
collegiality
george francis

eleonore louis godefroi cavaignac
finitely generated module
college of pontiffs
variety show
george francis (trainer)
lummi
yu gi oh!
george francis (robot wars)
mark fidrych
swinomish
el mariachi

guan dao
wb
swinomish (tribe)
tim skold
symphony x
chicagoland
hoh
didache
manga entertainment
mathematics education
saline river (arkansas)

guan gong
serapion of antioch
irritation
brahmagupta's identity
charles o. finley
hyperbaric oxygen therapy
joshua chamberlain
bobby clarke
recluse spider
mokpo
pohang