Timeline for Rank of a $ \mathbb{Z}_{p}[[T]] $ module
Current License: CC BY-SA 3.0
14 events
| when toggle format | what | by | license | comment | |
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| Dec 1, 2013 at 18:12 | comment | added | Suman | @FernandoMuro $ \mathbb{Z}_{p} $ is the p-adic integers. | |
| Dec 1, 2013 at 17:54 | vote | accept | Suman | ||
| Dec 1, 2013 at 13:55 | history | edited | Suman | CC BY-SA 3.0 |
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| Dec 1, 2013 at 13:19 | vote | accept | Suman | ||
| Dec 1, 2013 at 17:54 | |||||
| Dec 1, 2013 at 10:30 | history | edited | Suman | CC BY-SA 3.0 |
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| Dec 1, 2013 at 10:17 | history | edited | Suman | CC BY-SA 3.0 |
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| Dec 1, 2013 at 10:07 | answer | added | Torsten Schoeneberg | timeline score: 2 | |
| Dec 1, 2013 at 9:34 | comment | added | S. Carnahan♦ | Wouldn't you want to consider the $\mathbb{F}_p[[t]]$-module structure of the reduction, instead of the $\mathbb{F}_p$-module structure? | |
| Dec 1, 2013 at 8:58 | history | edited | Suman | CC BY-SA 3.0 |
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| Dec 1, 2013 at 8:47 | history | edited | Suman | CC BY-SA 3.0 |
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| Dec 1, 2013 at 8:34 | comment | added | Fernando Muro | What's $\mathbb Z_p$? Not the $p$-adic integers? What do you mean by torsion of a $\mathbb Z_p[[T]]$-module? | |
| Dec 1, 2013 at 8:16 | history | edited | Suman | CC BY-SA 3.0 |
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| Dec 1, 2013 at 6:51 | answer | added | abx | timeline score: 5 | |
| Dec 1, 2013 at 6:39 | history | asked | Suman | CC BY-SA 3.0 |