mathematics Mathematics is a field of study that discovers and organizes methods, Mathematical theory, theories and theorems that are developed and Mathematical proof, proved for the needs of empirical sciences and mathematics itself. There are many ar ...

, an alternating group is the

group A group is a number of persons or things that are located, gathered, or classed together. Groups of people * Cultural group, a group whose members share the same cultural identity * Ethnic group, a group whose members share the same ethnic iden ...

even permutation In mathematics, when ''X'' is a finite set with at least two elements, the permutations of ''X'' (i.e. the bijective functions from ''X'' to ''X'') fall into two classes of equal size: the even permutations and the odd permutations. If any total ...

s of a

finite set In mathematics, particularly set theory, a finite set is a set that has a finite number of elements. Informally, a finite set is a set which one could in principle count and finish counting. For example, is a finite set with five elements. Th ...

. The alternating group on a set of elements is called the alternating group of degree , or the alternating group on letters and denoted by or

Basic properties

For , the group A_''n'' is the

commutator subgroup In mathematics, more specifically in abstract algebra, the commutator subgroup or derived subgroup of a group is the subgroup generated by all the commutators of the group. The commutator subgroup is important because it is the smallest normal ...

of the

symmetric group In abstract algebra, the symmetric group defined over any set is the group whose elements are all the bijections from the set to itself, and whose group operation is the composition of functions. In particular, the finite symmetric grou ...

S_''n'' with

index Index (: indexes or indices) may refer to: Arts, entertainment, and media Fictional entities * Index (''A Certain Magical Index''), a character in the light novel series ''A Certain Magical Index'' * The Index, an item on the Halo Array in the ...

2 and has therefore ''n''!/2 elements. It is the kernel of the signature

group homomorphism In mathematics, given two groups, (''G'',∗) and (''H'', ·), a group homomorphism from (''G'',∗) to (''H'', ·) is a function ''h'' : ''G'' → ''H'' such that for all ''u'' and ''v'' in ''G'' it holds that : h(u*v) = h(u) \cdot h(v) whe ...

explained under

. The group A_''n'' is abelian

if and only if In logic and related fields such as mathematics and philosophy, "if and only if" (often shortened as "iff") is paraphrased by the biconditional, a logical connective between statements. The biconditional is true in two cases, where either bo ...

and

simple Simple or SIMPLE may refer to: *Simplicity, the state or quality of being simple Arts and entertainment * ''Simple'' (album), by Andy Yorke, 2008, and its title track * "Simple" (Florida Georgia Line song), 2018 * "Simple", a song by John ...

if and only if or . A₅ is the smallest non-abelian

simple group SIMPLE Group Limited is a conglomeration of separately run companies that each has its core area in International Consulting. The core business areas are Legal Services, Fiduciary Activities, Banking Intermediation and Corporate Service. The d ...

, having

order Order, ORDER or Orders may refer to: * A socio-political or established or existing order, e.g. World order, Ancien Regime, Pax Britannica * Categorization, the process in which ideas and objects are recognized, differentiated, and understood ...

60, and thus the smallest non-

solvable group In mathematics, more specifically in the field of group theory, a solvable group or soluble group is a group that can be constructed from abelian groups using extensions. Equivalently, a solvable group is a group whose derived series terminat ...

. The group A₄ has the

Klein four-group In mathematics, the Klein four-group is an abelian group with four elements, in which each element is Involution (mathematics), self-inverse (composing it with itself produces the identity) and in which composing any two of the three non-identi ...

V as a proper

normal subgroup In abstract algebra, a normal subgroup (also known as an invariant subgroup or self-conjugate subgroup) is a subgroup that is invariant under conjugation by members of the group of which it is a part. In other words, a subgroup N of the group ...

, namely the identity and the double transpositions , that is the kernel of the

surjection In mathematics, a surjective function (also known as surjection, or onto function ) is a function such that, for every element of the function's codomain, there exists one element in the function's domain such that . In other words, for a f ...

of A₄ onto . We have the

exact sequence In mathematics, an exact sequence is a sequence of morphisms between objects (for example, groups, rings, modules, and, more generally, objects of an abelian category) such that the image of one morphism equals the kernel of the next. Definit ...

. In

Galois theory In mathematics, Galois theory, originally introduced by Évariste Galois, provides a connection between field (mathematics), field theory and group theory. This connection, the fundamental theorem of Galois theory, allows reducing certain problems ...

, this map, or rather the corresponding map , corresponds to associating the

Lagrange resolvent In Galois theory, a discipline within the field of abstract algebra, a resolvent for a permutation group ''G'' is a polynomial whose coefficients depend polynomially on the coefficients of a given polynomial ''p'' and has, roughly speaking, a rat ...

cubic to a quartic, which allows the

quartic polynomial In algebra, a quartic function is a function of the form :f(x)=ax^4+bx^3+cx^2+dx+e, where ''a'' is nonzero, which is defined by a polynomial of degree four, called a quartic polynomial. A ''quartic equation'', or equation of the fourth de ...

to be solved by radicals, as established by

Lodovico Ferrari Lodovico de Ferrari (2 February 1522 – 5 October 1565) was an Italians, Italian mathematician best known today for solving the biquadratic equation. Biography Born in Bologna, Lodovico's grandfather, Bartolomeo Ferrari, was forced out of M ...

Conjugacy classes

As in the

, any two elements of A_''n'' that are conjugate by an element of A_''n'' must have the same

cycle shape In mathematics, a permutation of a Set (mathematics), set can mean one of two different things: * an arrangement of its members in a sequence or linear order, or * the act or process of changing the linear order of an ordered set. An example ...

. The converse is not necessarily true, however. If the cycle shape consists only of cycles of odd length with no two cycles the same length, where cycles of length one are included in the cycle type, then there are exactly two conjugacy classes for this cycle shape . Examples: *The two

permutation In mathematics, a permutation of a set can mean one of two different things: * an arrangement of its members in a sequence or linear order, or * the act or process of changing the linear order of an ordered set. An example of the first mean ...

s (123) and (132) are not conjugates in A₃, although they have the same cycle shape, and are therefore conjugate in S₃. *The permutation (123)(45678) is not conjugate to its inverse (132)(48765) in A₈, although the two permutations have the same cycle shape, so they are conjugate in S₈.

Relation with symmetric group

:''See Symmetric group''. As finite symmetric groups are the groups of all permutations of a set with finite elements, and the alternating groups are groups of even permutations, alternating groups are subgroups of finite symmetric groups.

Generators and relations

For ''n'' ≥ 3, A_''n'' is generated by 3-cycles, since 3-cycles can be obtained by combining pairs of transpositions. This generating set is often used to prove that A_''n'' is simple for .

Automorphism group

For , except for , the

automorphism group In mathematics, the automorphism group of an object ''X'' is the group consisting of automorphisms of ''X'' under composition of morphisms. For example, if ''X'' is a finite-dimensional vector space, then the automorphism group of ''X'' is the g ...

of A_''n'' is the symmetric group S_''n'', with

inner automorphism group In abstract algebra, an inner automorphism is an automorphism of a group, ring, or algebra given by the conjugation action of a fixed element, called the ''conjugating element''. They can be realized via operations from within the group itself, ...

A_''n'' and

outer automorphism group In mathematics, the outer automorphism group of a group, , is the quotient, , where is the automorphism group of and ) is the subgroup consisting of inner automorphisms. The outer automorphism group is usually denoted . If is trivial and has ...

Z₂; the outer automorphism comes from conjugation by an odd permutation. For and 2, the automorphism group is trivial. For the automorphism group is Z₂, with trivial inner automorphism group and outer automorphism group Z₂. The outer automorphism group of A₆ is the Klein four-group , and is related to the outer automorphism of S₆. The extra outer automorphism in A₆ swaps the 3-cycles (like (123)) with elements of shape 3² (like ).

Exceptional isomorphisms

There are some

exceptional isomorphism In mathematics, an exceptional isomorphism, also called an accidental isomorphism, is an isomorphism between members ''a'i'' and ''b'j'' of two families, usually infinite, of mathematical objects, which is incidental, in that it is not an ins ...

s between some of the small alternating groups and small

groups of Lie type In mathematics, specifically in group theory, the phrase ''group of Lie type'' usually refers to finite groups that are closely related to the group of rational points of a reductive linear algebraic group with values in a finite field. The phra ...

, particularly

projective special linear group In mathematics, especially in the group theoretic area of algebra, the projective linear group (also known as the projective general linear group or PGL) is the induced action of the general linear group of a vector space ''V'' on the associa ...

s. These are: * A₄ is isomorphic to PSL₂(3)Robinson (1996),

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/ref> and the

symmetry group In group theory, the symmetry group of a geometric object is the group of all transformations under which the object is invariant, endowed with the group operation of composition. Such a transformation is an invertible mapping of the amb ...

of chiral

tetrahedral symmetry image:tetrahedron.svg, 150px, A regular tetrahedron, an example of a solid with full tetrahedral symmetry A regular tetrahedron has 12 rotational (or orientation-preserving) symmetries, and a symmetry order of 24 including transformations that co ...

. * A₅ is isomorphic to PSL₂(4), PSL₂(5), and the symmetry group of chiral

icosahedral symmetry In mathematics, and especially in geometry, an object has icosahedral symmetry if it has the same symmetries as a regular icosahedron. Examples of other polyhedra with icosahedral symmetry include the regular dodecahedron (the dual polyhedr ...

. (See for an indirect isomorphism of using a classification of simple groups of order 60, and

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for a direct proof). * A₆ is isomorphic to PSL₂(9) and PSp₄(2)'. * A₈ is isomorphic to PSL₄(2). More obviously, A₃ is isomorphic to the

cyclic group In abstract algebra, a cyclic group or monogenous group is a Group (mathematics), group, denoted C_n (also frequently \Z_n or Z_n, not to be confused with the commutative ring of P-adic number, -adic numbers), that is Generating set of a group, ge ...

Z₃, and A₀, A₁, and A₂ are isomorphic to the

trivial group In mathematics, a trivial group or zero group is a group that consists of a single element. All such groups are isomorphic, so one often speaks of the trivial group. The single element of the trivial group is the identity element and so it is usu ...

(which is also for any ''q'').

Examples S₄ and A₄

Example A₅ as a subgroup of 3-space rotations

A₅ is the group of isometries of a dodecahedron in 3-space, so there is a representation . In this picture the vertices of the polyhedra represent the elements of the group, with the center of the sphere representing the identity element. Each vertex represents a rotation about the axis pointing from the center to that vertex, by an angle equal to the distance from the origin, in radians. Vertices in the same polyhedron are in the same conjugacy class. Since the conjugacy class equation for A₅ is , we obtain four distinct (nontrivial) polyhedra. The vertices of each polyhedron are in bijective correspondence with the elements of its conjugacy class, with the exception of the conjugacy class of (2,2)-cycles, which is represented by an icosidodecahedron on the outer surface, with its antipodal vertices identified with each other. The reason for this redundancy is that the corresponding rotations are by radians, and so can be represented by a vector of length in either of two directions. Thus the class of (2,2)-cycles contains 15 elements, while the icosidodecahedron has 30 vertices. The two conjugacy classes of twelve 5-cycles in A₅ are represented by two icosahedra, of radii 2/5 and 4/5, respectively. The nontrivial outer automorphism in interchanges these two classes and the corresponding icosahedra.

Example: the 15 puzzle

It can be proved that the 15 puzzle, a famous example of the

sliding puzzle A sliding puzzle, sliding block puzzle, or sliding tile puzzle is a combination puzzle that challenges a player to slide (frequently flat) pieces along certain routes (usually on a board) to establish a certain end-configuration. The pieces to ...

, can be represented by the alternating group A₁₅, because the combinations of the 15 puzzle can be generated by 3-cycles. In fact, any sliding puzzle with square tiles of equal size can be represented by A_2''k''−1.

Subgroups

A₄ is the smallest group demonstrating that the converse of Lagrange's theorem is not true in general: given a finite group ''G'' and a divisor ''d'' of , there does not necessarily exist a subgroup of ''G'' with order ''d'': the group , of order 12, has no subgroup of order 6. A subgroup of three elements (generated by a cyclic rotation of three objects) with any distinct nontrivial element generates the whole group. For all , A_''n'' has no nontrivial (that is, proper)

s. Thus, A_''n'' is a

for all . A₅ is the smallest non-solvable group.

Group homology

The group homology of the alternating groups exhibits stabilization, as in

stable homotopy theory In mathematics, stable homotopy theory is the part of homotopy theory (and thus algebraic topology) concerned with all structure and phenomena that remain after sufficiently many applications of the suspension functor. A founding result was the ...

: for sufficiently large ''n'', it is constant. However, there are some low-dimensional exceptional homology. Note that the homology of the symmetric group exhibits similar stabilization, but without the low-dimensional exceptions (additional homology elements).

''H''₁: Abelianization

The first

homology group In mathematics, the term homology, originally introduced in algebraic topology, has three primary, closely-related usages. The most direct usage of the term is to take the ''homology of a chain complex'', resulting in a sequence of abelian grou ...

coincides with

abelianization In mathematics, more specifically in abstract algebra, the commutator subgroup or derived subgroup of a group is the subgroup generated by all the commutators of the group. The commutator subgroup is important because it is the smallest normal s ...

, and (since A_''n'' is perfect, except for the cited exceptions) is thus: :''H''₁(A_''n'', Z) = Z₁ for ''n'' = 0, 1, 2; :''H''₁(A₃, Z) = A = A₃ = Z₃; :''H''₁(A₄, Z) = A = Z₃; :''H''₁(A_''n'', Z) = Z₁ for ''n'' ≥ 5. This is easily seen directly, as follows. A_''n'' is generated by 3-cycles – so the only non-trivial abelianization maps are since order-3 elements must map to order-3 elements – and for all 3-cycles are conjugate, so they must map to the same element in the abelianization, since conjugation is trivial in abelian groups. Thus a 3-cycle like (123) must map to the same element as its inverse (321), but thus must map to the identity, as it must then have order dividing 2 and 3, so the abelianization is trivial. For , A_''n'' is trivial, and thus has trivial abelianization. For A₃ and A₄ one can compute the abelianization directly, noting that the 3-cycles form two conjugacy classes (rather than all being conjugate) and there are non-trivial maps (in fact an isomorphism) and .

''H''₂: Schur multipliers

The

Schur multiplier In mathematical group theory, the Schur multiplier or Schur multiplicator is the second homology group H_2(G, \Z) of a group ''G''. It was introduced by in his work on projective representations. Examples and properties The Schur multiplier \ope ...

s of the alternating groups A_''n'' (in the case where ''n'' is at least 5) are the cyclic groups of order 2, except in the case where ''n'' is either 6 or 7, in which case there is also a triple cover. In these cases, then, the Schur multiplier is (the cyclic group) of order 6. These were first computed in . :''H''₂(A_''n'', Z) = Z₁ for ''n'' = 1, 2, 3; :''H''₂(A_''n'', Z) = Z₂ for ''n'' = 4, 5; :''H''₂(A_''n'', Z) = Z₆ for ''n'' = 6, 7; :''H''₂(A_''n'', Z) = Z₂ for ''n'' ≥ 8.

Basic properties

Conjugacy classes

Relation with symmetric group

Generators and relations

Automorphism group

Exceptional isomorphisms

Examples S₄ and A₄

Example A₅ as a subgroup of 3-space rotations

Example: the 15 puzzle

Subgroups

Group homology

''H''₁: Abelianization

''H''₂: Schur multipliers

Notes

References

External links

Basic properties

Conjugacy classes

Relation with symmetric group

Generators and relations

Automorphism group

Exceptional isomorphisms

Examples S4 and A4

Example A5 as a subgroup of 3-space rotations

Example: the 15 puzzle

Subgroups

Group homology

''H''1: Abelianization

''H''2: Schur multipliers

Notes

References

External links

Examples S₄ and A₄

Example A₅ as a subgroup of 3-space rotations

''H''₁: Abelianization

''H''₂: Schur multipliers