Answer to Question #350790 in Abstract Algebra for Eliza

Question #350790

2.4. If G is a group of even order, prove that it has an element "a\\ne e" satisfying a2 = e.


1
Expert's answer
2022-06-20T15:22:52-0400

Define a relation on "G" by "g\\sim h" if and only if "g=h" or "g=h^{-1}" for all "g,h\\in G".


It is easy to see that this is an equivalence relation. The equivalence class containing "g" is "\\{g,g^{-1}\\}" and contains exactly "2" elements if and only if "g^2\\ne e". Let "C_1,C_2,\\dots, C_k" be the equivalence classes of "G" with respect to "\\sim". Then "|G|=|C_1|+|C_2|+\\dots+|C_k|".


Since each "|C_i|\\in \\{1,2\\}" and "|G|" is even the number of equivalence classes "C_i", with "|C_i|=1" is even. Since the equivalence class containing "\\{e\\}" has just one element, there must exist another equivalence class with eactly one element say "\\{a\\}". Then "e\\ne a" and "a^{-1}=a" i.e. "a^2=e".


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