Answer to Question #209638 in Linear Algebra for anuj

solution

N₁,N₂ "\\in" L(V,V) as follows

N₁("\\upsilon"₁) =0, N₁("\\upsilon"₂ )="\\upsilon"₁ ; (1)

N₂("\\upsilon"₁)="\\upsilon"₂ ,N₂("\\upsilon"₂)=0 (2)

Then for any vector w=a"\\upsilon"₁ + b"\\upsilon"₂ we have

N₂N₁(w)= aN₂N₁("\\upsilon"₁)+bN₂N₁("\\upsilon"₂)=b"\\upsilon"₂ (3)

but

N₁N₂(w)=aN₁N2("\\upsilon"₁) + bN₁N₂("\\upsilon"₂)=a"\\upsilon"₁ (4)

we see from 3 and 4 the linear independence of "\\upsilon"₁,"\\upsilon"₂ that

N₁N₂(w)"\\neq" N₂N₁(w)

unless a=b=0 that is ,unless w=0. Thus,

N₁N₂ "\\neq" N₂N₁

as operators in L(V,V). In the event that dim V=n>2, we may build upon a construction of N₁,N₂ follows : choosing a basis {"\\upsilon"₁,"\\upsilon"₂......,"\\upsilon"_n } for V, we define N₁,N₂ on "\\upsilon"₁,"\\upsilon"₂

as the above set

N₁("\\upsilon"_i)=N₂("\\upsilon"_i)=0

for 3"\\leq"i"\\leq"n, then for any w="\\sum" a_i"\\upsilon"_i"\\in"V we have as above

N₁N₂(w) "\\neq" N₂N₁(w)

providing at least one of a₁,a₂"\\neq" 0, thus

N₁N₂"\\neq" N₂N_1.