Difference between revisions of "Local analysis"
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== Number theory == | == Number theory == | ||
| − | In [[number theory]] one may study a [[Diophantine equation]], for example, modulo p for all primes p, looking for constraints on solutions. | + | In [[number theory]] one may study a [[Diophantine equation]], for example, modulo p for all [[Prime number|primes]] p, looking for constraints on solutions. |
The next step is to look modulo prime powers, and then for solutions in the p-adic field. | The next step is to look modulo prime powers, and then for solutions in the p-adic field. | ||
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== See also == | == See also == | ||
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* [[Diophantine equation]] | * [[Diophantine equation]] | ||
* [[Group theory]] | * [[Group theory]] | ||
* [[Localization of a ring]] | * [[Localization of a ring]] | ||
| + | * [[Mathematics]] | ||
* [[Number theory]] | * [[Number theory]] | ||
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* [https://en.wikipedia.org/wiki/Local_analysis Local analysis] @ Wikipedia | * [https://en.wikipedia.org/wiki/Local_analysis Local analysis] @ Wikipedia | ||
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| + | [[Category:Group theory]] | ||
| + | [[Category:Mathematics]] | ||
Latest revision as of 18:54, 25 April 2016
In mathematics, the term local analysis has at least two meanings, both derived from the idea of looking at a problem relative to each prime number p first, and then later trying to integrate the information gained at each prime into a 'global' picture.
Group theory
In group theory, local analysis was started by the Sylow theorems, which contain significant information about the structure of a finite group G for each prime number p dividing the order of G. This area of study was enormously developed in the quest for the classification of finite simple groups, starting with the Feit–Thompson theorem that groups of odd order are solvable.
Number theory
In number theory one may study a Diophantine equation, for example, modulo p for all primes p, looking for constraints on solutions.
The next step is to look modulo prime powers, and then for solutions in the p-adic field.
This kind of local analysis provides conditions for solution that are necessary.
In cases where local analysis (plus the condition that there are real solutions) provides also sufficient conditions, one says that the Hasse principle holds: this is the best possible situation.
It does for quadratic forms, but certainly not in general (for example for elliptic curves).
The point of view that one would like to understand what extra conditions are needed has been very influential, for example for cubic forms.
See also
External links
- Local analysis @ Wikipedia
