Talk:Graded vector space

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General I-graded vector spaces

Latest comment: 15 years ago1 comment1 person in discussion

• Is set I countable?
• An example would be useful.

TomyDuby (talk) 14:04, 12 September 2008 (UTC)Reply

N-graded vector space

Latest comment: 14 years ago2 comments2 people in discussion

Does

${\displaystyle V=\bigoplus _{n\in \mathbb {N} }V_{n}}$ 

mean

${\displaystyle V=V_{1}\bigoplus V_{2}\bigoplus \cdots \bigoplus V_{n}\bigoplus \cdots }$ ?

TomyDuby (talk) 14:23, 12 September 2008 (UTC)Reply

No it means

${\displaystyle V=V_{0}\bigoplus V_{1}\bigoplus V_{2}\bigoplus \cdots \bigoplus V_{n}\bigoplus \cdots }$ .

Marc van Leeuwen (talk) 12:39, 25 November 2009 (UTC)Reply

Grading linear maps over M×N is nonsense

Latest comment: 14 years ago1 comment1 person in discussion

The approach taken in the section "Linear maps" seems erroneous to me. After defining a homogeneous linear map of a given bi-degree, the notion of (general) graded linear map is not defined at all, but if one takes the following description (direct sum of spaces of homogeneous linear map) as definition, one gets way to few linear maps if the grading set is infinite (as is is in many important and very basic examples, like polynomial rings). This is because in a graded space elements must be finite sums of homogeneous elements. For instance in a polynomial ring K[X] (graded by degree) the identity map would fail to be graded linear, because it has "components" that are homogeneous linear of degree (n,n) for all n (but it is not the finite sum of those components).

Thus I also do not understand what is said in the paragraph containing graded map, since such maps are not in general (and even almost never) graded linear maps as defined above. Marc van Leeuwen (talk) —Preceding undated comment added 12:54, 25 November 2009 (UTC).Reply