let L be Lattice; :: thesis: the L_join of L is_distributive_wrt the L_join of L
now let a,
b,
c be
Element of
L;
:: thesis: the L_join of L . a,(the L_join of L . b,c) = the L_join of L . (the L_join of L . a,b),(the L_join of L . a,c)thus the
L_join of
L . a,
(the L_join of L . b,c) =
a "\/" (b "\/" c)
.=
(a "\/" b) "\/" c
by LATTICES:def 5
.=
((a "\/" a) "\/" b) "\/" c
by LATTICES:17
.=
((a "\/" b) "\/" a) "\/" c
by LATTICES:def 5
.=
(a "\/" b) "\/" (a "\/" c)
by LATTICES:def 5
.=
the
L_join of
L . (the L_join of L . a,b),
(the L_join of L . a,c)
;
:: thesis: verum end;
hence
the L_join of L is_distributive_wrt the L_join of L
by BINOP_1:24; :: thesis: verum