let V be non empty RLSStruct ; for V1 being non empty add-closed multi-closed Subset of V
for a being Real
for v being VECTOR of V
for w being VECTOR of RLSStruct(# V1,(In (0. V),V1),(add| V1,V),(Mult_ V1) #) st w = v holds
a * w = a * v
let V1 be non empty add-closed multi-closed Subset of V; for a being Real
for v being VECTOR of V
for w being VECTOR of RLSStruct(# V1,(In (0. V),V1),(add| V1,V),(Mult_ V1) #) st w = v holds
a * w = a * v
let a be Real; for v being VECTOR of V
for w being VECTOR of RLSStruct(# V1,(In (0. V),V1),(add| V1,V),(Mult_ V1) #) st w = v holds
a * w = a * v
let v be VECTOR of V; for w being VECTOR of RLSStruct(# V1,(In (0. V),V1),(add| V1,V),(Mult_ V1) #) st w = v holds
a * w = a * v
let w be VECTOR of RLSStruct(# V1,(In (0. V),V1),(add| V1,V),(Mult_ V1) #); ( w = v implies a * w = a * v )
assume A1:
w = v
; a * w = a * v
then
[a,v] in [:REAL ,V1:]
by ZFMISC_1:106;
hence
a * w = a * v
by A1, FUNCT_1:72; verum