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We have stated that on of the main objectives of group theory is to write down a complete list of non-isomorphic groups. At first, such a task appears hopeless. For, as we have seen, groups pop up in some very unexpected places and, therefore, if we set out to compile a list of all non-isomorphic groups, we would hardly begin to know where to look. The following theorem of Cayley solves this dilemma.

Theorem 1: Every group is isomorphic to a subgroup of a permutation group

Proof: Let G be a group, g Cayley’s theorem - Group Theory, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET G. define

Cayley’s theorem - Group Theory, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET

If Pg(x) = Pg(y), then xg-1 = yg-1, so that x = y. Therefore, Pg is an injection. If y Cayley’s theorem - Group Theory, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET G, then Pg(yg) = yg · g-1 = y. Therefore, Pg is a surjection. Thus, since Pg is a bijection, Pg is a permutation of the elements of the set G, and Pg ∈ SG. Let us consider the mapping

G → SG

defined by

Cayley’s theorem - Group Theory, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET Pg                           (1)

Since Pgg' = x(gg')-1 = PgPg'(x), the mapping (1) is a homomorphism. But P = 1SG if and only if x · g = x for all x Cayley’s theorem - Group Theory, CSIR-NET Mathematical Sciences | Mathematics for IIT JAM, GATE, CSIR NET, UGC NET G, which occurs if and only if g = 1G. Therefore, the kernel of the homomorphism (1) is 1G, and therefore the mapping (1) is an injection. Thus we have shown that G is isomorphic to a subgroup of SG.

What Cayley's theorem tells us is that permutation groups and their subgroups are all the groups that can exist. Unfortunately, the problem of classifying the subgroups of a permutation group is extremely complicated, even in the case of a finite permutation group. Therefore, Cayley's theorem does not allow us to easily identify a complete list of groups.

The above argument actually proves somewhat more than claimed. For if G is finite, having order n, then G is isomorphic to a subgroup of SG. Therefore we have

Corollary 2: If G has finite order n, then G is isomorphic to a subgroup of Sn.                  

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FAQs on Cayley’s theorem - Group Theory, CSIR-NET Mathematical Sciences - Mathematics for IIT JAM, GATE, CSIR NET, UGC NET

1. What is Cayley's theorem in group theory?
Ans. Cayley's theorem states that every group is isomorphic to a subgroup of a symmetric group. In other words, for any group G, there exists a subgroup H of the symmetric group on G elements such that G is isomorphic to H.
2. How does Cayley's theorem relate to group theory?
Ans. Cayley's theorem is a fundamental result in group theory that establishes a correspondence between groups and permutations. It shows that every group can be represented as a set of permutations of its elements, providing a useful tool for studying group properties and structures.
3. Can you explain the proof of Cayley's theorem?
Ans. The proof of Cayley's theorem involves constructing a subgroup of the symmetric group on G elements, where G is a given group. This subgroup is formed by considering the set of all left multiplication functions on G. By showing that this subgroup satisfies the group axioms and is isomorphic to G, the theorem is proven.
4. What are the applications of Cayley's theorem in mathematics?
Ans. Cayley's theorem has various applications in mathematics. It provides a powerful tool for studying group structures and properties, allowing mathematicians to classify and analyze different types of groups. It is also used in the study of symmetries, combinatorics, and other areas of mathematics where groups play a fundamental role.
5. Can Cayley's theorem be generalized to other algebraic structures?
Ans. Yes, Cayley's theorem can be generalized to other algebraic structures, not just groups. For example, there are similar theorems for semigroups, monoids, rings, and other algebraic structures. These generalizations establish a correspondence between the given algebraic structure and a certain set of transformations or operations on that structure.
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