Class-preserving implies linearly extensible: Difference between revisions
(Class-preserving implies linearly extensible moved to Class-preserving implies linearly pushforwardable) |
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{{automorphism property implication}} | |||
==Definition== | |||
Let <math>G</math> be a [[group]], and <math>k</math> a [[class-determining field]] for it. Then, any [[class-preserving automorphism]] of <math>G</math> is linearly extensible. | |||
==Proof== | |||
The proof combines two facts: | |||
* [[Class-preserving implies linearly pushforwardable]]: This is the crux of the proof, and uses that the field is class-determining for the group. | |||
* [[Linearly pushforwardable implies linearly extensible]]: This is tautological. | |||
Revision as of 17:06, 24 June 2008
This article gives the statement and possibly, proof, of an implication relation between two automorphism properties. That is, it states that every automorphism satisfying the first automorphism property must also satisfy the second automorphism property
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Definition
Let be a group, and a class-determining field for it. Then, any class-preserving automorphism of is linearly extensible.
Proof
The proof combines two facts:
- Class-preserving implies linearly pushforwardable: This is the crux of the proof, and uses that the field is class-determining for the group.
- Linearly pushforwardable implies linearly extensible: This is tautological.