let R be Ring; for S being RingExtension of R
for T being Subset of S
for a, b being Element of S
for x, y being Element of (RAdj (R,T)) st a = x & b = y holds
a * b = x * y
let S be RingExtension of R; for T being Subset of S
for a, b being Element of S
for x, y being Element of (RAdj (R,T)) st a = x & b = y holds
a * b = x * y
let T be Subset of S; for a, b being Element of S
for x, y being Element of (RAdj (R,T)) st a = x & b = y holds
a * b = x * y
let a, b be Element of S; for x, y being Element of (RAdj (R,T)) st a = x & b = y holds
a * b = x * y
let x, y be Element of (RAdj (R,T)); ( a = x & b = y implies a * b = x * y )
assume A1:
( a = x & b = y )
; a * b = x * y
the carrier of (RAdj (R,T)) = carrierRA T
by dRA;
hence a * b =
( the multF of S || (carrierRA T)) . (x,y)
by A1, RING_3:1
.=
x * y
by dRA
;
verum