1 We shall adhere to this terminology and not use the word symmetric in the sense presently to be mentioned -under the name Hermitean.

2 Weyl, Cf. H., Gruppentheorie una Quantenmechanik (2nd ed. Leipzig, 1931)Google Scholar [quoted as GQ], chap. V, §§ 1-7 and 13-14.

3 In passing we notice that the order of the algebra may now be evaluated as Σ(v + l)², the sum extending over the non-negative v of the sequence ƒ‘, ƒ ‘ — 2, … where ƒ ‘ = min (n - d, n + d) = min (ƒ, 2n - ƒ ) , and hence equals (ƒ’ + l)(ƒ + 2)(ƒ’ + 3)/l-2-3. It should be easily possible to confirm this directly.

4 The dot under a letter merely serves to indicate that it stands for a symmetry quantity.

5 By using deeper algebraic resources than we care to employ in this elementary approach, Theorem I could be obtained as an immediate consequence of the following two facts: (a) Every representation a -> a of the group ring of the symmetric group breaks up into irreducible parts (is ‘fully reducible“) ; (β) A fully reducible ma trie algebra coincides with the commutator algebra of its commutator algebra (R. Brauer).—Another variant: Explicit construction by means of Young's symmetry operators shows that the inequivalent irreducible parts of the representation a -> a are absolutelyirreducible and inequivalent, and consequently (a) yields a complete decomposition. With this additional knowledge (β) can be replaced by the trivial fact that complete decomposition of a matric algebra implies its identity with the commutator algebra of its commutator algebra.