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| bio | website | caseyOnSoftware.blogspot.com |
|---|---|---|
| location | ||
| age | ||
| visits | member for | 1 year, 4 months |
| seen | May 6 at 22:34 | |
| stats | profile views | 68 |
I'm a computer science student at UCLA.
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Mar 11 |
comment |
Prime number divisibility Awesome, I get it now. I wonder if there's a simpler way to show this though. The proof states this line as though this should just be intuitive, while it clearly requires a bit of logic. This leads me to believe maybe there's some easier, intuitive way to understand it. |
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Mar 11 |
comment |
Prime number divisibility I'm very close to understanding (upvote!), but I'm not totally following. I get that if we're in $\mathbb{Z}_p$, b has an inverse, but we're not in $\mathbb{Z}_p$? Or basically, b inverse is the inverse that it WOULD be in $\mathbb{Z}_p$, and therefore works in this context? |
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Mar 11 |
reviewed | Approve suggested edit on Prime number divisibility |
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Mar 11 |
asked | Prime number divisibility |
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Feb 25 |
awarded | Custodian |
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Feb 22 |
awarded | Popular Question |
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Feb 13 |
awarded | Popular Question |
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Feb 3 |
awarded | Commentator |
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Feb 3 |
comment |
Proving two rings are not isomorphic Not actually familiar with group theory, or abelian groups. I'll do some research though! |
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Feb 3 |
revised |
Proving two rings are not isomorphic edited tags |
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Feb 3 |
asked | Proving two rings are not isomorphic |
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Jan 14 |
awarded | Yearling |
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May 16 |
asked | Applications of parity formula on connected planar graph |
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May 16 |
accepted | How to prove there exists a linear transformation? |
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May 1 |
accepted | Reducing infinite summation |
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Apr 30 |
accepted | Finding all graphs with a certain vertex degree sequence |
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Apr 30 |
accepted | Number of permutations on a set given some conditions |
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Apr 30 |
asked | Reducing infinite summation |
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Apr 25 |
revised |
Finding all graphs with a certain vertex degree sequence added 15 characters in body |
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Apr 25 |
revised |
Finding all graphs with a certain vertex degree sequence I edited it back in |
