I would love your help with this:
Let $F$ be a field and $F\subset K$ a field extension.
Let $A,B\in M_{5}(F)$.
How does one prove that if $A$ and $B$ are similar in $F$, then they are similar in $K$?
Thank you.
I would love your help with this:
Let $F$ be a field and $F\subset K$ a field extension.
Let $A,B\in M_{5}(F)$.
How does one prove that if $A$ and $B$ are similar in $F$, then they are similar in $K$?
Thank you.
Let $L$ be a field. We say that two matrices $X,Y\in M_n(L)$ are similar when there is an invertible $P\in M_n(L)$ such that $Y=P^{-1}XP.$ Because $F\subset K$, we can choose to view a matrix with entries in $F$ as also being a matrix with entries in $K$.
Thus, if $A$ and $B$ are similar as matrices in $F$, that is, if $B=P^{-1}AP$ where $P\in M_5(F)$ is an invertible matrix, then we also have that $A$ and $B$ are similar as matrices in $K$, that is, $B=Q^{-1}AQ$ where $Q\in M_5(K)$ is an invertible matrix - namely, we just take $Q=P$, viewed as a matrix with entries in $K$.