\documentclass[12pt, leqno]article \usepackage[utf8]inputenc \usepackageamsmath, amssymb, amsthm, amscd \usepackage[margin=1in]geometry \usepackageenumitem \usepackagetitlesec \usepackagexcolor % -------------------------------------------------------------- % Custom Commands for Dummit & Foote Notation % -------------------------------------------------------------- \newcommand\Z\mathbbZ \newcommand\R\mathbbR \newcommand\C\mathbbC \newcommand\Q\mathbbQ \newcommand\F\mathbbF \newcommand\Stab\textStab \newcommand\Fix\textFix \newcommand\Orb\textOrb \newcommand\sgn\textsgn \newcommand\Aut\textAut \newcommand\Inn\textInn \newcommand\soc\textSoc \newcommand\Ker\textKer \newcommand\Image\textIm
\beginsolution Decompose $A$ into disjoint orbits. For any $a \notin \Fix(A)$, its orbit size is $|\Orb(a)| = |G|/|\Stab(a)|$. Since $G$ is a $p$-group, $|\Orb(a)|$ is a power of $p$ greater than $1$, hence divisible by $p$. For $a \in \Fix(A)$, $|\Orb(a)| = 1$. Therefore: [ |A| = \sum_\textorbits |\Orb(a)| = |\Fix(A)| + \sum_\textnon-fixed orbits (\textmultiple of p). ] Reducing modulo $p$ yields $|A| \equiv |\Fix(A)| \pmodp$. \endsolution Dummit And Foote Solutions Chapter 4 Overleaf
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