Talk:List of functions: Difference between revisions
Latest comment: 1 year ago by OfficialURL in topic CNF
Content added Content deleted
Augigogigi (talk | contribs) (→CNF: new section) |
Augigogigi (talk | contribs) mNo edit summary |
||
Line 1: | Line 1: | ||
== CNF == |
== CNF == |
||
The Cantor normal form isn't an ordinal function. It's rather a representation that can be assigned to any ordinal. I guess you could consider it as a function from ordinals to finite lists of coefficient/exponent pairs, or any other Cantor normal form representation. – [[User:OfficialURL|<span style="background-image:-webkit-linear-gradient(left,#cd0000,#686800,#007600,#007171,#4646ff,#b400b4,#cd0000);color:white;"><b>OfficialURL</b></span>]] ([[User_talk:OfficialURL|talk]]) 05:37 |
The Cantor normal form isn't an ordinal function. It's rather a representation that can be assigned to any ordinal. I guess you could consider it as a function from ordinals to finite lists of coefficient/exponent pairs, or any other Cantor normal form representation. – [[User:OfficialURL|<span style="background-image:-webkit-linear-gradient(left,#cd0000,#686800,#007600,#007171,#4646ff,#b400b4,#cd0000);color:white;"><b>OfficialURL</b></span>]] ([[User_talk:OfficialURL|talk]]) 05:37, 6 September 2022 (UTC) |
Revision as of 18:30, 6 September 2022
CNF
The Cantor normal form isn't an ordinal function. It's rather a representation that can be assigned to any ordinal. I guess you could consider it as a function from ordinals to finite lists of coefficient/exponent pairs, or any other Cantor normal form representation. – OfficialURL (talk) 05:37, 6 September 2022 (UTC)