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Property:Proved in

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Pages using the property "Proved in"

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C
Classification of finite 2-groups of maximal class +Gorenstein (194, Section 5.4 (''p-groups of small depth''), Theorem 4.5, Section 5.4 (''p-groups of small depth''), Theorem 4.5)  +
Classification of finite p-groups of characteristic rank one +Gorenstein (?, ?, ?)  +
Classification of finite p-groups of normal rank one +Gorenstein (?, ?, ?)  +
Classification of finite p-groups of rank one +Gorenstein (?, ?, ?)  +
Classification of finite p-groups with cyclic maximal subgroup +Gorenstein (193, Section 5.4 (''pgroups of small depth''), Theorem 4.4, Section 5.4 (''pgroups of small depth''), Theorem 4.4)  +
Classification of finite p-groups with cyclic normal self-centralizing subgroup +Gorenstein (?, ?, ?)  +
Classification of finite solvable CN-groups +Gorenstein (402, Theorem 14.1.5, Theorem 14.1.5)  +
Clifford's theorem +Gorenstein (?, ?, ?)  +
Commutator of finite group with cyclic coprime automorphism group equals second commutator +KhukhroNGA (18, Corollary 1.6.4(b), Corollary 1.6.4(b))  +
Commutator of finite nilpotent group with coprime automorphism group equals second commutator +Gorenstein (181, Theorem 3.6, Section 5.3 (''p'-automorphisms of p-groups''), Theorem 3.6, Section 5.3 (''p'-automorphisms of p-groups''))  +
Commuting of non-identity elements defines an equivalence relation between prime divisors of the order of a finite CN-group +Gorenstein (408, Theorem 14.2.5(i), Theorem 14.2.5(i))  +
Conjugacy class of prime power size implies not simple +DummitFoote (890, Lemma 7, Section 19.2 (''Theorems of Burnside and Hall''), Lemma 7, Section 19.2 (''Theorems of Burnside and Hall''))  +
Conjugacy functor whose normalizer generates whole group with p'-core controls fusion +Gorenstein (282, Theorem 4.1, Theorem 4.1)  +
Core-free and permutable implies subdirect product of finite nilpotent groups +LennoxStonehewer (217, Theorem 7.1.10(a), Theorem 7.1.10(a))  +
Core-free permutable subnormal implies solvable of length at most one less than subnormal depth +LennoxStonehewer (214, Theorem 7.1.5, Theorem 7.1.5)  +
Corollary of Thompson transitivity theorem +Gorenstein (293, Theorem 5.6, Chapter 8, Theorem 5.6, Chapter 8)  +
Corollary of centralizer product theorem for rank at least three +Gorenstein (292, Lemma 5.5, Chapter 8 (''p-constrained and p-stable groups''), Section 5 (''The Thompson Transitivity Theorem''), Lemma 5.5, Chapter 8 (''p-constrained and p-stable groups''), Section 5 (''The Thompson Transitivity Theorem''))  +
Criterion for projective representation to lift to linear representation +IsaacsCT (182, Theorem 11.13, Theorem 11.13)  +
Cyclic Frattini quotient implies cyclic +Gorenstein (?, ?, ?)  +
D
Derived subgroup satisfies ascending chain condition on subnormal subgroups implies subnormal join property +RobinsonGT (?, ?, ?)  +
Dickson's theorem +Gorenstein (44, Theorem 8.4, Chapter 2 (''Some basic topics''), Section 2.8 (''Two-dimensional linear and projective groups''), Theorem 8.4, Chapter 2 (''Some basic topics''), Section 2.8 (''Two-dimensional linear and projective groups''))  +
Dihedral trick +Gorenstein (301, Theorem 1.1, Chapter 9 (''Groups of even order''), Section 1 (''Elementary properties of involutions''), Theorem 1.1, Chapter 9 (''Groups of even order''), Section 1 (''Elementary properties of involutions''))  +
E
Every Sylow subgroup is cyclic implies metacyclic +Hall (146, Theorem 9.4.3, Theorem 9.4.3)  +, Gorenstein (258, Theorem 6.2, Chapter 7 (''Fusion, transfer and p-factor groups''), Section 7.6 (''elementary applications''), Theorem 6.2, Chapter 7 (''Fusion, transfer and p-factor groups''), Section 7.6 (''elementary applications''))  +
Every nontrivial subgroup of the group of integers is cyclic on its smallest element +Artin (?, ?, ?)  +
Exactly n elements of order dividing n in a finite solvable group implies the elements form a subgroup +Hall (145, Theorem 9.4.1, Theorem 9.4.1)  +