let R be Ring; for V being LeftMod of R
for u, v being Vector of V
for W being Submodule of V holds
( u in v + W iff ex v1 being Vector of V st
( v1 in W & u = v + v1 ) )
let V be LeftMod of R; for u, v being Vector of V
for W being Submodule of V holds
( u in v + W iff ex v1 being Vector of V st
( v1 in W & u = v + v1 ) )
let u, v be Vector of V; for W being Submodule of V holds
( u in v + W iff ex v1 being Vector of V st
( v1 in W & u = v + v1 ) )
let W be Submodule of V; ( u in v + W iff ex v1 being Vector of V st
( v1 in W & u = v + v1 ) )
thus
( u in v + W implies ex v1 being Vector of V st
( v1 in W & u = v + v1 ) )
( ex v1 being Vector of V st
( v1 in W & u = v + v1 ) implies u in v + W )proof
assume
u in v + W
;
ex v1 being Vector of V st
( v1 in W & u = v + v1 )
then
ex
v1 being
Vector of
V st
(
u = v + v1 &
v1 in W )
;
hence
ex
v1 being
Vector of
V st
(
v1 in W &
u = v + v1 )
;
verum
end;
given v1 being Vector of V such that A1:
( v1 in W & u = v + v1 )
; u in v + W
thus
u in v + W
by A1; verum