|
||
|
Title: nonstandard ringoid structures on Z Post by baudolino on Oct 9th, 2004, 2:30pm Consider this definition of a ringoid. A ringoid is a set R with two binary operators, addition [oplus] and multiplication [otimes], where both [oplus] and [otimes] are commutative and associative, and [otimes] distributes over [oplus] left and right, (i.e. a [otimes] (b [oplus] c) = (a [otimes] b) [oplus] (a [otimes] c) and (b [oplus] c) [otimes] a = (b [otimes] a) [oplus] (c [otimes] a)). Consider the set Z of integers and the binary operation [otimes] given by a [otimes] b = a + b, where + is the standard addition in Z. Find all binary operations [oplus] on Z such that (Z, [oplus], [otimes]) is a ringoid. |
||
|
Title: Re: nonstandard ringoid structures on Z Post by Barukh on Oct 11th, 2004, 10:31am Here’s one example. [smiley=blacksquare.gif][hide] a [oplus] b = max(a,b), and the symmetric min function. [/hide][smiley=blacksquare.gif] Here’s a couple of wrong functions that came to my mind: [smiley=square.gif][hide] 1. a [oplus] b = (a+b)/2. This satisfies the distributive and commutative laws, but is not associative. 2. a [oplus] b = a. This satisfies the distributive and associative laws, but is not commutative. [/hide][smiley=square.gif] |
||
|
Powered by YaBB 1 Gold - SP 1.4! Forum software copyright © 2000-2004 Yet another Bulletin Board |