Answer to Question #210854 in Linear Algebra for sabelo Zwelakhe Xu

"\\texttt{(a)}\\\\\n\\texttt{If }\\lambda \\texttt{ is a Eigen value of T then, }\\\\\\exists v(\\neq 0)\\in V \\ni Tv=\\lambda v\\\\\n\\texttt{Now as T is invertible, } \\\\\nTv=\\lambda v\\\\\n\\Rightarrow T^{-1}(T(v))=T^{-1}(\\lambda v)=\\lambda T^{-1}(v)\\\\\n\\Rightarrow T^{-1}(v)=\\dfrac{1}{\\lambda}v\\\\\n\\texttt{Hence } 1\/\\lambda \\texttt{ is the eigen value of }T^{-1}.\\\\\n\\texttt{And } v \\texttt{ is also the Eigen vector of }T^{-1}. \\texttt{(i)}"

"\\texttt{Conversely, }\\\\\n\\texttt{If } 1\/\\lambda \\texttt{ is a Eigen value of } T^{-1} \\texttt{ then, }\\\\\\exists w(\\neq 0)\\in V \\ni T^{-1}w=w\/\\lambda\\\\\n\\texttt{Now as T is invertible, } \\\\\nT^{-1}w=w\/\\lambda\\\\\n\\Rightarrow T(T^{-1}(w))=T(w)\/\\lambda\\\\\n\\Rightarrow T(w)=\\lambda w\\\\\n\\texttt{Hence }\\lambda \\texttt{ is the eigen value of }T.\\\\\n\\texttt{And } w \\texttt{ is also the Eigen vector of }T.~ \\texttt{(ii)}"

"\\;\\\\\\texttt{(b)}\\\\\n\\texttt{From (i) and (ii),}\\\\ \\texttt{We can see that both } T \\texttt{ and } T^{-1} \\texttt{ have same eigen vectors.}"