Pages that link to "Mathematician:James Alexander Green"
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The following pages link to Mathematician:James Alexander Green:
Displayed 5 items.
View (previous 50 | next 50) (20 | 50 | 100 | 250 | 500)- Mathematician:Mathematicians/Sorted By Nation/Britain (transclusion) (← links)
- Mathematician:J.A. Green (redirect page) (← links)
- Union is Associative (← links)
- One-Step Subgroup Test (← links)
- Two-Step Subgroup Test (← links)
- Intersection is Associative (← links)
- Center of Symmetric Group is Trivial (← links)
- Union is Commutative (← links)
- Intersection is Commutative (← links)
- Russell's Paradox (← links)
- Equality of Ordered Pairs (← links)
- Center of Group is Normal Subgroup (← links)
- Set Intersection is Idempotent (← links)
- Set is Subset of Union (← links)
- Set is Subset of Itself (← links)
- Intersection is Subset (← links)
- Intersection is Subset of Union (← links)
- Absorption Laws (Set Theory)/Union with Intersection (← links)
- Absorption Laws (Set Theory)/Intersection with Union (← links)
- Intersection Distributes over Union (← links)
- Set Difference with Self is Empty Set (← links)
- Relative Complement of Relative Complement (← links)
- Symmetric Difference is Commutative (← links)
- Intersection Distributes over Symmetric Difference (← links)
- Symmetric Difference with Self is Empty Set (← links)
- Symmetric Difference is Associative (← links)
- Cartesian Product is Anticommutative (← links)
- Cartesian Product Distributes over Union (← links)
- Cartesian Product of Unions (← links)
- Diagonal Relation is Equivalence (← links)
- Equivalence Class holds Equivalent Elements (← links)
- Fundamental Theorem on Equivalence Relations (← links)
- Relation Induced by Partition is Equivalence (← links)
- Equality of Mappings (← links)
- Composite of Injections is Injection (← links)
- Injection if Composite is Injection (← links)
- Composite of Surjections is Surjection (← links)
- Surjection if Composite is Surjection (← links)
- Surjection iff Right Inverse (← links)
- Identity Mapping is Bijection (← links)
- Identity Mapping is Permutation (← links)
- Inverse of Bijection is Bijection (← links)
- Composite of Bijection with Inverse is Identity Mapping (← links)
- Inverse of Inverse of Bijection (← links)
- Composite of Permutations is Permutation (← links)
- Inverse of Permutation is Permutation (← links)
- Set Equivalence behaves like Equivalence Relation (← links)
- Empty Set is Element of Power Set (← links)
- Restriction of Associative Operation is Associative (← links)
- Restriction of Commutative Operation is Commutative (← links)
- Subsemigroup Closure Test (← links)
- Element under Right Operation is Left Identity (← links)
- Left and Right Identity are the Same (← links)
- Set of all Self-Maps under Composition forms Monoid (← links)
- Product of Semigroup Element with Right Inverse is Idempotent (← links)
- Inverse of Identity Element is Itself (← links)
- Invertible Elements of Monoid form Subgroup of Cancellable Elements (← links)
- Power Set with Union is Commutative Monoid (← links)
- Power Set with Intersection is Commutative Monoid (← links)
- Homomorphism to Group Preserves Identity (← links)
- Isomorphism is Equivalence Relation (← links)
- Self-Inverse Elements Commute iff Product is Self-Inverse (← links)
- Group Homomorphism of Product with Inverse (← links)
- Isomorphism of Abelian Groups (← links)
- Symmetric Difference on Power Set forms Abelian Group (← links)
- Group is Subgroup of Itself (← links)
- Identity of Subgroup (← links)
- Subgroup of Abelian Group is Abelian (← links)
- Intersection of Subgroups is Subgroup (← links)
- Union of Subgroups (← links)
- Kernel of Group Homomorphism is Subgroup (← links)
- Cosets in Abelian Group (← links)
- Inner Automorphisms form Normal Subgroup of Automorphism Group (← links)
- Subgroup of Abelian Group is Normal (← links)
- Kernel is Normal Subgroup of Domain (← links)
- Trivial Quotient Group is Quotient Group (← links)
- Kernel of Inner Automorphism Group is Center (← links)
- Cardinality of Empty Set (← links)
- Infinite Set is Equivalent to Proper Subset (← links)
- Fundamental Principle of Counting (← links)
- Invertible Integers under Multiplication (← links)
- Cardinality of Cartesian Product of Finite Sets (← links)
- Cardinality of Power Set of Finite Set (← links)
- Cardinality of Set of Injections (← links)
- Cardinality of Set of Subsets (← links)
- Modulo Multiplication is Well-Defined (← links)
- Floor defines Equivalence Relation (← links)
- Power of Conjugate equals Conjugate of Power (← links)
- Product of Conjugates equals Conjugate of Products (← links)
- General Morphism Property for Semigroups (← links)
- Homomorphism of Power of Group Element (← links)
- Finite Subgroup Test (← links)
- Set of Words Generates Group (← links)
- Tower Law for Subgroups (← links)
- Identity is Only Group Element of Order 1 (← links)
- Element of Finite Group is of Finite Order (← links)
- Inverse Element is Power of Order Less 1 (← links)
- Equal Powers of Finite Order Element (← links)
- Order of Element Divides Order of Finite Group (← links)
- Order of Isomorphic Image of Group Element (← links)
- Subgroup of Finite Cyclic Group is Determined by Order (← links)
- Prime Group is Cyclic (← links)
- Prime Group is Simple (← links)
- Inner Automorphism Group is Isomorphic to Quotient Group with Center (← links)
- Real Numbers under Addition form Infinite Abelian Group (← links)
- Integers under Addition form Infinite Cyclic Group (← links)
- Generators of Additive Group of Integers (← links)
- Inverse of Generator of Cyclic Group is Generator (← links)
- Additive Group of Integers is Subgroup of Reals (← links)
- Integer Multiples under Addition form Infinite Cyclic Group (← links)
- Quotient Group of Integers by Multiples (← links)
- Order of Symmetric Group (← links)
- Group Action Induces Equivalence Relation (← links)
- Stabilizer is Subgroup (← links)
- Action of Group on Coset Space is Group Action (← links)
- Conjugacy Action on Identity (← links)
- Sign of Permutation is Plus or Minus Unity (← links)
- Parity Function is Homomorphism (← links)
- Permutation on Polynomial is Group Action (← links)
- Alternating Group is Normal Subgroup of Symmetric Group (← links)
- Quotient Group of Infinite Cyclic Group by Subgroup (← links)
- Integers are Countably Infinite (← links)
- Real Numbers are Uncountably Infinite (← links)
- Composition of Mappings is Associative (← links)
- Euclid's Lemma for Prime Divisors (← links)
- Divisibility by 11 (← links)
- Subset Relation on Power Set is Partial Ordering (← links)
- Power Set is Closed under Intersection (← links)
- Power Set is Closed under Union (← links)
- Set Difference with Superset is Empty Set (← links)
- Intersection with Subset is Subset (← links)
- Associativity on Four Elements (← links)
- Identity of Power Set with Union (← links)
- Identity of Power Set with Intersection (← links)
- Set Difference with Intersection is Difference (← links)
- Inverse of Identity Mapping (← links)
- Quotient Group is Group (← links)
- Zero of Power Set with Union (← links)
- Zero of Power Set with Intersection (← links)
- Duality Principle for Sets (← links)
- Cartesian Product is not Associative (← links)
- Subtraction on Numbers is Anticommutative (← links)
- Commutative Law of Addition (← links)
- Associative Law of Addition (← links)
- Associative Law of Multiplication (← links)
- Commutative Law of Multiplication (← links)
- Subtraction on Numbers is Not Associative (← links)
- Identity Element of Multiplication on Numbers (← links)
- Identity Element of Addition on Numbers (← links)
- Zero Element is Unique (← links)
- Group with Zero Element is Trivial (← links)
- Count of Binary Operations on Set (← links)
- Power of Element in Subgroup (← links)
- Element to Power of Multiple of Order is Identity (← links)
- List of Elements in Finite Cyclic Group (← links)
- Stabilizer is Subgroup/Corollary (← links)
- Stabilizer in Group of Transformations (← links)
- Subset Product Action is Group Action (← links)
- Power of Product of Commuting Elements in Semigroup equals Product of Powers (← links)
- Natural Number Addition is Closed (← links)
- Constant Mapping to Identity is Homomorphism/Groups (← links)
- Identity Mapping is Automorphism/Groups (← links)
- Composition of Mappings is not Commutative (← links)
- Index Laws/Sum of Indices/Semigroup (← links)
- Identity of Group is Unique (← links)
- Kernel is Trivial iff Monomorphism/Group (← links)
- Exponential on Real Numbers is Group Isomorphism (← links)
- First Isomorphism Theorem/Groups (← links)
- Cartesian Product of Intersections/Corollary 2 (← links)
- Cartesian Product of Intersections/Corollary 1 (← links)
- Cardinality of Power Set of Finite Set/Proof 1 (← links)
- Cardinality of Power Set of Finite Set/Proof 2 (← links)
- Power Set is Closed under Set Difference (← links)
- Powers of Semigroup Element Commute (← links)
- Power of Product of Commutative Elements in Semigroup (← links)
- Powers of Group Elements/Negative Index (← links)
- Powers of Group Elements/Sum of Indices (← links)
- Powers of Group Elements/Product of Indices (← links)
- Group Element Commutes with Inverse (← links)
- All Elements of Right Operation are Right Zeroes (← links)
- All Elements of Left Operation are Left Zeroes (← links)
- Left and Right Zero are the Same (← links)
- Inner Automorphism is Automorphism (← links)
- Set is Element of its Power Set (← links)
- Automorphism Group is Subgroup of Symmetric Group (← links)
- Cayley's Representation Theorem/Proof 2 (← links)
- Exponential on Real Numbers is Group Isomorphism/Proof 1 (← links)
- Coset Product is Well-Defined/Proof 3 (← links)
- Homomorphism to Group Preserves Inverses (← links)
- Binomial Theorem/Integral Index (← links)
- Trivial Group is Cyclic Group (← links)
- Cyclic Group is Abelian/Proof 1 (← links)
- Lagrange's Theorem (Group Theory)/Proof 2 (← links)
- Cosets are Equivalent/Proof 1 (← links)
- Cardinality of Cartesian Product of Finite Sets/Corollary (← links)
- Identity Mapping is Right Identity/Proof 1 (← links)
- Identity Mapping is Left Identity/Proof 1 (← links)
- Composite of Bijections is Bijection/Proof 1 (← links)
- Modulo Subtraction is Well-Defined (← links)
- Identity is Unique/Proof 1 (← links)
- Inverse of Group Product/General Result (← links)
- Natural Number Multiplication is Closed (← links)
- Trivial Subgroup is Subgroup (← links)
- Trivial Subgroup is Normal (← links)
- Group is Normal in Itself (← links)
- Conjugacy Action on Group Elements is Group Action (← links)
- Stabilizer of Polynomial (← links)
- Stabilizer of Element under Conjugacy Action is Centralizer (← links)
- Stabilizer of Subset Product Action on Power Set (← links)
- Stabilizer of Coset Action on Set of Subgroups (← links)
- Stabilizer of Conjugacy Action on Subgroup is Normalizer (← links)
- Prime Power of Sum Modulo Prime/Corollary (← links)
- Power of Sum Modulo Prime/Corollary (← links)
- Inverse in Group is Unique/Proof 3 (← links)
- Symmetric Group is Group/Proof 1 (← links)
- Left and Right Coset Spaces are Equivalent/Proof 2 (← links)
- Intersection of Subgroups is Subgroup/General Result (← links)
- Subset Product within Semigroup is Associative/Corollary (← links)
- Subgroup is Superset of Conjugate iff Normal (← links)
- Subgroup equals Conjugate iff Normal (← links)
- Subgroup equals Conjugate iff Normal/Proof 1 (← links)
- Subgroup is Normal iff Contains Conjugate Elements (← links)
- Modulo Addition is Well-Defined/Proof 2 (← links)
- Inverse of Group Isomorphism is Isomorphism/Proof 2 (← links)
- Composite of Group Homomorphisms is Homomorphism/Proof 2 (← links)
- Composite of Group Isomorphisms is Isomorphism (← links)
- Quotient Epimorphism is Epimorphism/Group (← links)
- Element in Right Coset iff Product with Inverse in Subgroup (← links)
- Empty Set is Subset of All Sets/Proof 1 (← links)
- Cardinality of Finite Set is Well-Defined (← links)
- Set of all Self-Maps under Composition forms Semigroup (← links)
- Union of Subsets is Subset/Proof 2 (← links)
- Inverse of Composite Bijection/Proof 2 (← links)
- Equivalence of Definitions of Set Equality (← links)
- Divisibility by 9/Proof 1 (← links)
- Divisibility by 9/Corollary (← links)
- Injection from Finite Set to Itself is Surjection (← links)
- Integers under Addition form Abelian Group (← links)
- Orbit-Stabilizer Theorem/Proof 2 (← links)
- Real Numbers under Addition form Monoid (← links)
- Real Numbers under Multiplication form Monoid (← links)
- Group has Latin Square Property/Proof 4 (← links)
- Symmetric Group is not Abelian (← links)
- Group Action of Symmetric Group (← links)
- Left Coset by Identity (← links)
- Right Coset by Identity (← links)
- Surjection from Finite Set to Itself is Permutation (← links)
- General Associativity Theorem/Formulation 3 (← links)
- Equivalence Classes are Disjoint/Proof 1 (← links)
- Equivalence of Definitions of Inverse Mapping (← links)
- De Morgan's Laws (Set Theory)/Set Difference/Difference with Intersection (← links)
- De Morgan's Laws (Set Theory)/Set Difference/Difference with Union (← links)
- Real Numbers under Multiplication do not form Group (← links)
- Symmetric Group on 3 Letters/Cayley Table (← links)
- Left Coset Space forms Partition (← links)
- Right Coset Space forms Partition (← links)
- Right Cosets are Equal iff Product with Inverse in Subgroup (← links)
- Left Cosets are Equal iff Product with Inverse in Subgroup (← links)
- Right Congruence Class Modulo Subgroup is Right Coset (← links)
- Left Congruence Modulo Subgroup is Equivalence Relation (← links)
- Right Congruence Modulo Subgroup is Equivalence Relation (← links)
- Index Laws/Sum of Indices/Notation (← links)
- Cardinality of Proper Subset of Finite Set (← links)
- Cardinality of Set of All Mappings/Finite Sets (← links)
- Cardinality of Set Union/General Case (← links)
- Binomial Coefficient involving Power of Prime/Proof 1 (← links)
- Set of Residue Classes/Examples/3 (← links)
- Congruence (Number Theory)/Examples/Modulo 1 (← links)
- Congruence (Number Theory)/Integers/Examples/Modulo 2 (← links)
- Floor Function/Examples/Floor of Minus One Half (← links)
- Congruence by Divisor of Modulus/Integer Modulus (← links)
- Left Coset Equals Subgroup iff Element in Subgroup (← links)
- Right Coset Equals Subgroup iff Element in Subgroup (← links)
- Inverse of Group Product/Proof 1 (← links)
- Strictly Positive Real Numbers under Multiplication form Subgroup of Non-Zero Real Numbers (← links)
- Non-Zero Real Numbers under Multiplication form Abelian Group/Proof 1 (← links)
- Congruence Modulo Integer is Equivalence Relation (← links)
- Modulo Addition/Cayley Table/Modulo 6 (← links)
- Mapping/Examples (← links)
- Injection/Examples/2x Function on Integers (← links)
- Natural Number Subtraction is not Closed (← links)
- Inverse of Group Inverse/Proof 2 (← links)
- Coset/Examples/Symmetry Group of Equilateral Triangle/Cosets of Reflection Subgroup (← links)
- Intersection of Left Cosets of Subgroups is Left Coset of Intersection (← links)
- Russell's Paradox/Historical Note (← links)
- Bijection between R x (S x T) and (R x S) x T (← links)
- Bijection between Power Set of Disjoint Union and Cartesian Product of Power Sets (← links)
- Trivial Group is Group (← links)
- Intersection of Additive Groups of Integer Multiples (← links)
- Subgroup of Additive Group of Integers Generated by Two Integers (← links)
- Groups of Order 4 (← links)
- Conjugacy Action on Subsets is Group Action (← links)
- Subgroup Action is Group Action (← links)
- Orbit of Subgroup Action is Coset (← links)
- Stabilizer of Subgroup Action is Identity (← links)
- Sylow Theorems/Historical Note/First Sylow Theorem (← links)
- First Sylow Theorem/Proof 2 (← links)
- Set/Examples/Living People (← links)
- Subset/Examples/Integers are Subset of Real Numbers (← links)
- Euler Diagram/Examples (← links)
- Subset/Examples/British People are Subset of People (← links)
- Subset/Examples/Initial Segment is Subset of Integers (← links)
- Set Intersection/Examples/2 Arbitrarily Chosen Sets (← links)
- Set Intersection/Examples/Blue-Eyed British People (← links)
- Set Union/Examples/2 Arbitrarily Chosen Sets (← links)
- Set Union/Examples/People who are Blue-Eyed or British (← links)
- Union Distributes over Intersection/Proof 2 (← links)
- Cardinality of Set Difference with Subset (← links)
- Cartesian Product/Examples/Product of Arbitrary Sets 1 (← links)
- Set of Sets/Examples/Set of Arbitrary Sets 1 (← links)
- Power Set/Examples/Set of 3 Elements (← links)
- Set Intersection/Examples/Set of Arbitrary Sets (← links)
- Set Union/Examples/Set of Arbitrary Sets (← links)
- Set Intersection/Examples/Set of Initial Segments (← links)
- Set of Sets/Examples/Set of Initial Segments (← links)
- Set Union/Examples/Set of Initial Segments (← links)
- Set Definition by Predicate/Examples/Integers Greater Than or Equal to 2 (← links)
- Set Definition by Predicate/Examples/Integers Less Than or Equal to 5 (← links)
- Set Intersection/Examples/Overlapping Integer Sets (← links)
- Set Union/Examples/Overlapping Integer Sets (← links)
- Cardinality of Set Union/Examples/3 Arbitrary Sets (← links)
- Equivalence Relation/Examples/People of Same Age (← links)
- Equivalence Relation/Examples/Non-Equivalence/Is the Mother Of (← links)
- Equivalence Relation/Examples/Non-Equivalence/Greater Than (← links)
- Set Partition/Examples/Integers by Sign (← links)
- Equivalence Class/Examples/People of Same Age (← links)
- Congruence Modulo Integer/Examples/13 equiv 3 mod 5 (← links)
- Congruence Modulo Integer/Examples/-10 equiv 8 mod 6 (← links)
- Congruence Modulo Integer/Examples/-3 equiv -5 mod 2 (← links)
- Congruence (Number Theory)/Integers/Examples/Modulo 1 (← links)
- Remainder on Division is Least Positive Residue (← links)
- Integer Division/Examples/29 Divided by 8 (← links)
- Set of Residue Classes/Examples/4 (← links)
- Equivalence Relation/Examples/Non-Equivalence/Sum is Integer (← links)
- Equivalence Relation/Examples/Non-Equivalence/Divisor Relation (← links)
- Equivalence Relation/Examples/Non-Equivalence/People with Common Ancestor (← links)
- Floor Function/Examples/Floor of Root 5 (← links)
- Floor Function/Examples/Floor of 3 (← links)
- Modulo Arithmetic/Examples/Residue of 2^512 Modulo 5 (← links)
- Intersection of Congruence Classes/Examples/Intersection of 1 mod 3 with -1 mod 4 (← links)
- Converse of Euclid's Lemma does not Hold (← links)
- Divisibility by 12 (← links)
- Mapping/Examples/Age of Person (← links)
- Mapping/Examples/Height of Person (← links)
- Equality of Mappings/Unequal/Examples/Exponential Functions (← links)
- Cardinality of Set of All Mappings/Examples/3 Elements to 2 Elements (← links)
- Equality of Mappings/Also defined as (← links)
- Exponential on Real Numbers is Injection (← links)
- Surjective Restriction of Real Exponential Function (← links)
- Composition of Mappings/Examples/Arbitrary Finite Sets (← links)
- Permutation/Examples/Addition of Constant on Integers (← links)
- Cardinality of Set of Injections/Examples/Cardinality 2 to Cardinality 3 (← links)
- Injection/Examples/Negative Function on Integers (← links)
- Surjection/Examples/Negative Function on Integers (← links)
- Injection/Examples/Non-Injection/Half Even Zero Odd (← links)
- Surjection/Examples/Half Even Zero Odd (← links)
- Injection/Examples/2x+1 Function on Integers (← links)
- Surjection/Examples/Non-Surjection/2x+1 Function on Integers (← links)
- Cayley Table/Examples/Arbitrary Order 3 Structure (← links)
- Integer Square Function is not Injective (← links)
- Integer Square Function is not Surjective (← links)
- Restriction of Real Square Mapping to Positive Reals is Bijection (← links)
- Inverse of Real Square Function on Positive Reals (← links)
- Real Square Function is not Bijective (← links)
- Inverse of Linear Function on Real Numbers (← links)
- Linear Function on Real Numbers is Bijection (← links)
- Composition of Linear Real Functions (← links)
- Condition for Composition of Linear Real Functions to be Commutative (← links)
- Composition of Right Inverse with Mapping is Idempotent (← links)
- Set of Even Integers is Equivalent to Set of Integers (← links)
- Sets of Permutations of Equivalent Sets are Equivalent (← links)
- Composition of Permutations is not Commutative (← links)
- Associative Operation/Examples/Non-Associative/Arbitrary Order 3 Structure (← links)
- Subtraction has no Identity Element (← links)
- Zero Element of Multiplication on Numbers (← links)
- Addition on Numbers has no Zero Element (← links)
- Magma/Examples/Real Numbers (← links)
- Real Numbers under Subtraction do not form Semigroup (← links)
- Group has Latin Square Property/Additive Notation (← links)
- Count of Binary Operations on Set/Examples/Order 2 (← links)
- Count of Commutative Binary Operations on Set/Examples/Order 2 (← links)
- Semigroup/Examples/Order 2 (← links)
- Count of Binary Operations with Identity/Examples/Order 2 (← links)
- Count of Binary Operations with Zero/Examples/Order 2 (← links)
- Associative Operation/Examples/Non-Associative/xy+1 (← links)
- Structure with Element both Identity and Zero has One Element (← links)
- Power of Product of Commutative Elements in Semigroup/Examples/Elements of 3rd Symmetric Group (← links)
- Product of Semigroup Element with Right Inverse is Idempotent/Examples/Double and Half Mappings on Integers (← links)
- Monoid/Examples/x+y+xy on Reals (← links)
- Group/Examples/x+y+xy over Reals less -1 (← links)
- Group/Examples/Linear Functions (← links)
- Integer Multiples under Addition form Subgroup of Integers (← links)
- Symmetric Group on 3 Letters/Subgroups (← links)
- Word (Abstract Algebra)/Examples/Set with 2 Elements (← links)
- Word (Abstract Algebra)/Examples/Symmetric Group on 3 Letters (← links)
- Symmetric Group on 3 Letters/Generators (← links)
- Subgroup Generated by Subgroup (← links)
- Group is Generated by Itself (← links)
- Action of Inverse of Group Element (← links)
- Union Operation on Supersets of Subset is Closed (← links)
- Intersection Operation on Supersets of Subset is Closed (← links)
- Existence of Magma with no Proper Submagma (← links)
- Subset of Abelian Group Generated by Product of Element with Inverse Element is Subgroup (← links)
- Non-Zero Integers under Multiplication are not Subgroup of Reals (← links)
- Subset of Abelian Group Generated by Product of Element with Inverse Element is Subgroup/Examples/Non-Zero Integers in Non-Zero Reals under Multiplication (← links)
- Condition for Elements of Group to be in Subgroup (← links)
- Union of Subgroups/Corollary 1 (← links)
- Subgroup Generated by Commuting Elements is Abelian (← links)
- Equivalence of Definitions of Generated Subgroup (← links)
- Alternating Group on 4 Letters/Cayley Table (← links)
- Alternating Group on 4 Letters/Order of Elements (← links)
- Generator of Cyclic Group/Examples/C8 (← links)
- Symmetric Group on 3 Letters/Centralizers (← links)
- Symmetric Group on 4 Letters/Normalizers (← links)
- Coset/Examples/Symmetry Group of Equilateral Triangle/Cosets of Reflection Subgroup/Transversals (← links)
- Transversal (Group Theory)/Examples/Integer Multiples in Integers (← links)
- Symmetric Group on 3 Letters/Conjugacy Classes (← links)
- Group Action of Symmetric Group/Subset (← links)
- Group Action of Symmetric Group on Subset is Transitive (← links)
- Cardinality of Set of Subsets/Proof 3 (← links)
- First Sylow Theorem/Examples/Alternating Group on 4 Letters (← links)
- Symmetric Group on 3 Letters/Normal Subgroups (← links)
- Coset Product on Non-Normal Subgroup is not Well-Defined (← links)
- Modulo Addition/Cayley Table/Modulo 3 (← links)
- Klein Four-Group is Normal in A4 (← links)
- Alternating Group on 4 Letters/Subgroups/Examples/Order 3 (← links)
- Coset of Trivial Subgroup is Singleton (← links)
- Inverse Elements of Right Transversal is Left Transversal (← links)
- Condition for Subset of Group to be Right Transversal (← links)
- Alternating Group on 4 Letters/Conjugacy Classes (← links)
- Group Action on Coset Space is Transitive (← links)
- Stabilizer of Coset under Group Action on Coset Space (← links)
- Conjugate of Subgroup is Subgroup/Proof 1 (← links)
- Conjugate of Subgroup is Subgroup/Proof 2 (← links)
- Index of Subgroup equals Index of Conjugate (← links)
- Alternating Group on 4 Letters/Normality of Subgroups (← links)
- Stabilizer is Normal iff Stabilizer of Each Element of Orbit (← links)
- Power of Coset Product is Coset of Power (← links)
- Condition for Power of Element of Quotient Group to be Identity (← links)
- Additive Group of Integers is Normal Subgroup of Reals (← links)
- Condition for Element of Quotient Group of Additive Group of Reals by Integers to be of Finite Order (← links)
- Mapping from Additive Group of Integers to Powers of Group Element is Homomorphism (← links)
- Inner Automorphisms form Subgroup of Symmetric Group (← links)
- Group Isomorphism/Examples/Quotient Group of Z by 3Z with Quotient Group of A4 by K4 (← links)
- Order is Preserved by Group Isomorphism (← links)
- C6 is not Isomorphic to S3 (← links)
- Order of Alternating Group (← links)
- Mapping to Power is Endomorphism iff Abelian (← links)
- Klein Four-Group and Group of Cyclic Group of Order 4 are not Isomorphic/Proof 2 (← links)
- Additive Groups of Integers and Integer Multiples are Isomorphic (← links)
- Additive Group of Real Numbers is Not Isomorphic to Multiplicative Group of Real Numbers (← links)
- Normal Subgroup is Kernel of Group Homomorphism (← links)
- Homomorphic Image of Cyclic Group is Cyclic Group (← links)
- Power of Group Element in Kernel of Homomorphism iff Power of Image is Identity (← links)
- Kernel of Homomorphism on Cyclic Group (← links)
- Subgroup of Cyclic Group is Cyclic/Proof 3 (← links)
- Mapping from Group Element to Inner Automorphism is Homomorphism (← links)
- Image of Mapping from Group Element to Inner Automorphism is Inner Automorphism Group (← links)
- Normality Relation is not Transitive/Proof 1 (← links)
- Inner Automorphisms form Subgroup of Automorphism Group (← links)
- Explicit Set Definition/Examples/Example 6 (← links)
- Real Sequence/Examples/(-1)^n (← links)
- Real Sequence/Examples/1 (← links)
- Set is Subset of Intersection of Supersets/Proof 1 (← links)
- Cardinality of Set Union/2 Sets (← links)
- Real Sequence/Examples/n (← links)
- Real Sequence/Examples/(-1)^(n+1) over n (← links)
- Real Sequence/Examples/x^n (← links)
- Real Sequence/Examples/n^s (← links)
- Set is Equivalent to Itself (← links)
- Set Equivalence behaves like Equivalence Relation/Symmetric (← links)
- Set Equivalence behaves like Equivalence Relation/Transitive (← links)
- De Morgan's Laws (Set Theory)/Set Difference/Difference with Union/Venn Diagram (← links)
- Left Identity in Semigroup may not be Unique (← links)
- Russell's Paradox/Proof 1 (← links)
- Cardinality of Set of Subsets/Also presented as (← links)
- Number of Permutations of All Elements/Proof 2 (← links)
- User:Prime.mover/Source Work Progress (← links)
- Category:Sign of Permutation (← links)
- Axiom:Group Axioms (← links)
- Definition:Set (← links)
- Definition:Element (← links)
- Definition:Empty Set (← links)
- Definition:Singleton (← links)
- Definition:Subset (← links)
- Definition:Set Union (← links)
- Definition:Set Intersection (← links)
- Definition:Set Difference (← links)
- Definition:Function (← links)
- Definition:Equals (← links)
- Definition:Conditional (← links)
- Definition:Biconditional (← links)
- Definition:Subgroup (← links)
- Definition:Group (← links)
- Definition:Center (Abstract Algebra)/Group (← links)
- Definition:Cartesian Product (← links)
- Definition:Algebraic Structure (← links)
- Definition:Magma (← links)
- Definition:Submagma (← links)
- Definition:Semigroup (← links)
- Definition:Equivalence Class (← links)
- Definition:Power Set (← links)
- Mathematician:Mathematicians/Sorted By Birthday/February (← links)
- Mathematician:Green (transclusion) (← links)
- Mathematician:Mathematicians/Sorted By Birth/1921 - 1930 CE (transclusion) (← links)