User contributions for TheSpleen
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9 July 2015
- 09:4209:42, 9 July 2015 diff hist +1 m Subgroups of Additive Group of Integers minor stuff
15 May 2014
- 09:4309:43, 15 May 2014 diff hist +16 m Properties of Convergents of Continued Fractions No edit summary
- 09:0109:01, 15 May 2014 diff hist −1 m Definition:Continued Fraction/Simple No edit summary
12 May 2014
- 20:5120:51, 12 May 2014 diff hist +10 m Simple Infinite Continued Fraction Converges to Irrational Number No edit summary
7 May 2014
- 19:3119:31, 7 May 2014 diff hist −29 m Gelfond-Schneider Theorem No edit summary
24 March 2014
- 14:3314:33, 24 March 2014 diff hist 0 m Product of Sums of Four Squares No edit summary
20 March 2014
- 10:3110:31, 20 March 2014 diff hist −53 m Wedderburn's Theorem No edit summary
- 10:2010:20, 20 March 2014 diff hist +411 N Talk:Cardinality of Finite Vector Space Created page with "I think this is true for free moules as well, but we need to establish that every basis of a module has the same number of elements. Perhaps Isomorphism from R^n via n-Term..." current
- 10:0810:08, 20 March 2014 diff hist +904 N Cardinality of Finite Vector Space Created page with "== Theorem == Let $V$ be a $K$-vector space. Let $K$ be finite. Let the Definition:Dimension (Linear Algebra)/Vector..."
13 March 2014
- 13:5513:55, 13 March 2014 diff hist −1 Power to Characteristic of Field is Monomorphism No edit summary
- 13:3013:30, 13 March 2014 diff hist −16 m Power to Characteristic Power of Field is Monomorphism No edit summary
- 13:1913:19, 13 March 2014 diff hist 0 m Power to Characteristic Power of Field is Monomorphism TheSpleen moved page Power to Characteristic Power of Finite Field is Monomorphism to Power to Characteristic Power of Field is Monomorphism
- 13:1813:18, 13 March 2014 diff hist +131 Power to Characteristic Power of Field is Monomorphism No edit summary
- 12:3212:32, 13 March 2014 diff hist 0 m Power to Characteristic of Field is Monomorphism TheSpleen moved page Power to Characteristic of Finite Field is Monomorphism to Power to Characteristic of Field is Monomorphism
- 12:3212:32, 13 March 2014 diff hist +3 Power to Characteristic of Field is Monomorphism No edit summary
12 March 2014
- 16:4016:40, 12 March 2014 diff hist +216 Power to Characteristic of Field is Monomorphism No edit summary
- 10:1010:10, 12 March 2014 diff hist +6 Finite Ring with No Proper Zero Divisors is Field No edit summary
11 March 2014
- 23:3423:34, 11 March 2014 diff hist +274 N Talk:Finite Ring with No Proper Zero Divisors is Field Created page with "According to proofwiki's definition of fields, a field must have at least two elements, $0 \ne 1$. So I suppose we have to assume that $R$ has at least two elements. Does any..."
- 22:4722:47, 11 March 2014 diff hist −6 m Power to Characteristic of Field is Monomorphism for consistency
- 22:1822:18, 11 March 2014 diff hist +27 m Finite Ring with No Proper Zero Divisors is Field No edit summary
25 February 2014
- 22:4322:43, 25 February 2014 diff hist 0 m Definition:Inner Product No edit summary
- 13:0213:02, 25 February 2014 diff hist +130 N Cardinality of Finite Cartesian Space Redirected page to Cardinality of Cartesian Product/General Result/Corollary
- 12:4912:49, 25 February 2014 diff hist +1 m Cardinality of Cartesian Product of Finite Sets/General Result No edit summary
- 12:4912:49, 25 February 2014 diff hist −498 m Cardinality of Cartesian Product of Finite Sets/General Result/Corollary No edit summary
- 12:4712:47, 25 February 2014 diff hist −124 m Cardinality of Cartesian Product of Finite Sets No edit summary
- 12:4612:46, 25 February 2014 diff hist 0 m Cardinality of Cartesian Product of Finite Sets/Corollary/Proof 2 TheSpleen moved page Cardinality of Cartesian Product/Corollary 1/Proof 2 to Cardinality of Cartesian Product/Corollary/Proof 2 over redirect
- 12:4612:46, 25 February 2014 diff hist 0 m Cardinality of Cartesian Product of Finite Sets/Corollary/Proof 1 TheSpleen moved page Cardinality of Cartesian Product/Corollary 1/Proof 1 to Cardinality of Cartesian Product/Corollary/Proof 1 over redirect
- 12:4612:46, 25 February 2014 diff hist 0 m Cardinality of Cartesian Product of Finite Sets/Corollary TheSpleen moved page Cardinality of Cartesian Product/Corollary 1 to Cardinality of Cartesian Product/Corollary over redirect
- 12:4612:46, 25 February 2014 diff hist +145 Cardinality of Cartesian Product of Finite Sets/General Result No edit summary
- 12:4312:43, 25 February 2014 diff hist 0 m Cardinality of Cartesian Product of Finite Sets/General Result/Corollary TheSpleen moved page Cardinality of Cartesian Product/Corollary 2 to Cardinality of Cartesian Product/General Result/Corollary
- 11:4811:48, 25 February 2014 diff hist +253 Cardinality of Cartesian Product of Finite Sets No edit summary
- 11:4411:44, 25 February 2014 diff hist 0 m Cardinality of Cartesian Product of Finite Sets/Corollary/Proof 2 TheSpleen moved page Cardinality of Cartesian Product/Corollary/Proof 2 to Cardinality of Cartesian Product/Corollary 1/Proof 2
- 11:4411:44, 25 February 2014 diff hist 0 m Cardinality of Cartesian Product of Finite Sets/Corollary/Proof 1 TheSpleen moved page Cardinality of Cartesian Product/Corollary/Proof 1 to Cardinality of Cartesian Product/Corollary 1/Proof 1
- 11:4411:44, 25 February 2014 diff hist 0 m Cardinality of Cartesian Product of Finite Sets/Corollary TheSpleen moved page Cardinality of Cartesian Product/Corollary to Cardinality of Cartesian Product/Corollary 1
- 11:4411:44, 25 February 2014 diff hist +358 N Cardinality of Cartesian Product of Finite Sets/General Result/Corollary Created page with "== Theorem == <onlyinclude> Let $S^n$ be a cartesian space. Then: :$\left|{S^n}\right| = \left|{S}\right|^n$ </onlyinclude> ..."
- 11:3011:30, 25 February 2014 diff hist +651 N Cardinality of Cartesian Product of Finite Sets/General Result Created page with "== Theorem == <onlyinclude> Let $\displaystyle \prod_{k \mathop = 1}^n S_k$ be the cartesian product of a Definition:Sequ..."
23 February 2014
- 15:5515:55, 23 February 2014 diff hist −70 m Wedderburn's Theorem No edit summary
- 11:2111:21, 23 February 2014 diff hist +1 m Subring Module is Module/Special Case No edit summary
- 11:1711:17, 23 February 2014 diff hist −1 m Ring is Module over Itself/Proof 2 No edit summary
- 02:1502:15, 23 February 2014 diff hist −2,290 Definition:Vector Space over Division Subring/Special Case No edit summary
- 02:0302:03, 23 February 2014 diff hist +181 m Subring Module is Module/Special Case No edit summary
- 01:5701:57, 23 February 2014 diff hist 0 m Subring Module is Module/Special Case No edit summary
- 01:5501:55, 23 February 2014 diff hist +89 Subring Module is Module/Special Case No edit summary
- 01:4401:44, 23 February 2014 diff hist +1,723 N Ring is Module over Itself Created page with "== Theorem == Let $\left({R, +, \circ}\right)$ be a ring. Then $\left({R, +, \circ}\right)_R$ is an $R$-module. ..."
21 February 2014
- 23:1823:18, 21 February 2014 diff hist +2,458 Subring Module is Module No edit summary
- 22:4822:48, 21 February 2014 diff hist −1 m Definition:Module No edit summary
- 22:4722:47, 21 February 2014 diff hist −3 Axiom:Left Module Axioms No edit summary
- 12:1012:10, 21 February 2014 diff hist +2,680 Definition:Vector Space over Division Subring/Special Case No edit summary
20 February 2014
- 12:5112:51, 20 February 2014 diff hist −229 Wedderburn's Theorem No edit summary
19 February 2014
- 12:4212:42, 19 February 2014 diff hist +775 Wedderburn's Theorem No edit summary