let i be Nat; for K being non empty right_complementable Abelian add-associative right_zeroed addLoopStr
for R1, R2 being Element of i -tuples_on the carrier of K holds Sum (R1 - R2) = (Sum R1) - (Sum R2)
let K be non empty right_complementable Abelian add-associative right_zeroed addLoopStr ; for R1, R2 being Element of i -tuples_on the carrier of K holds Sum (R1 - R2) = (Sum R1) - (Sum R2)
let R1, R2 be Element of i -tuples_on the carrier of K; Sum (R1 - R2) = (Sum R1) - (Sum R2)
( the addF of K is having_an_inverseOp & the_inverseOp_wrt the addF of K = comp K )
by Th14, Th15;
hence Sum (R1 - R2) =
(diffield K) . ((Sum R1),( the addF of K $$ R2))
by Th8, SETWOP_2:37
.=
(Sum R1) - (Sum R2)
by Th11
;
verum