let x be set ; :: according to TARSKI:def 3 :: thesis: ( not x in (B '/\' C) '/\' D or x in '/\' (G \ {A}) )
assume A14: x in (B '/\' C) '/\' D ; :: thesis: x in '/\' (G \ {A})
then A15: x <> {} by EQREL_1:def 4;
x in (INTERSECTION ((B '/\' C),D)) \ {{}} by A14, PARTIT1:def 4;
then consider a, d being set such that
A16: a in B '/\' C and
A17: d in D and
A18: x = a /\ d by SETFAM_1:def 5;
a in (INTERSECTION (B,C)) \ {{}} by A16, PARTIT1:def 4;
then consider b, c being set such that
A19: b in B and
A20: c in C and
A21: a = b /\ c by SETFAM_1:def 5;
set h = ((B .--> b) +* (C .--> c)) +* (D .--> d);
A22: (((B .--> b) +* (C .--> c)) +* (D .--> d)) . D = d by FUNCT_7:94;
A23: (((B .--> b) +* (C .--> c)) +* (D .--> d)) . C = c by A8, Lm2;
A24: rng (((B .--> b) +* (C .--> c)) +* (D .--> d)) = {((((B .--> b) +* (C .--> c)) +* (D .--> d)) . B),((((B .--> b) +* (C .--> c)) +* (D .--> d)) . C),((((B .--> b) +* (C .--> c)) +* (D .--> d)) . D)} by Lm4
.= {((((B .--> b) +* (C .--> c)) +* (D .--> d)) . D),((((B .--> b) +* (C .--> c)) +* (D .--> d)) . B),((((B .--> b) +* (C .--> c)) +* (D .--> d)) . C)} by ENUMSET1:59 ;
A25: (((B .--> b) +* (C .--> c)) +* (D .--> d)) . B = b by A8, Lm3;
rng (((B .--> b) +* (C .--> c)) +* (D .--> d)) c= bool Y then reconsider F = rng (((B .--> b) +* (C .--> c)) +* (D .--> d)) as Subset-Family of Y ;
A27: x c= Intersect F A32: for p being set st p in G \ {A} holds
(((B .--> b) +* (C .--> c)) +* (D .--> d)) . p in p A34: dom (((B .--> b) +* (C .--> c)) +* (D .--> d)) = {B,C,D} by Lm1;
then D in dom (((B .--> b) +* (C .--> c)) +* (D .--> d)) by ENUMSET1:def 1;
then A35: rng (((B .--> b) +* (C .--> c)) +* (D .--> d)) <> {} by FUNCT_1:3;
Intersect F c= x then x = Intersect F by A27, XBOOLE_0:def 10;
hence x in '/\' (G \ {A}) by A12, A34, A32, A15, BVFUNC_2:def 1; :: thesis: verum

let x be set ; :: according to TARSKI:def 3 :: thesis: ( not x in '/\' (G \ {A}) or x in (B '/\' C) '/\' D )
assume x in '/\' (G \ {A}) ; :: thesis: x in (B '/\' C) '/\' D
then consider h being Function, F being Subset-Family of Y such that
A39: dom h = G \ {A} and
A40: rng h = F and
A41: for d being set st d in G \ {A} holds
h . d in d and
A42: x = Intersect F and
A43: x <> {} by BVFUNC_2:def 1;
D in dom h by A12, A39, ENUMSET1:def 1;
then A44: h . D in rng h by FUNCT_1:def 3;
set m = (h . B) /\ (h . C);
B in dom h by A12, A39, ENUMSET1:def 1;
then A45: h . B in rng h by FUNCT_1:def 3;
C in dom h by A12, A39, ENUMSET1:def 1;
then A46: h . C in rng h by FUNCT_1:def 3;
A47: x c= ((h . B) /\ (h . C)) /\ (h . D) then (h . B) /\ (h . C) <> {} by A43;
then A50: not (h . B) /\ (h . C) in {{}} by TARSKI:def 1;
D in G \ {A} by A12, ENUMSET1:def 1;
then A51: h . D in D by A41;
A52: not x in {{}} by A43, TARSKI:def 1;
C in G \ {A} by A12, ENUMSET1:def 1;
then A53: h . C in C by A41;
B in G \ {A} by A12, ENUMSET1:def 1;
then h . B in B by A41;
then (h . B) /\ (h . C) in INTERSECTION (B,C) by A53, SETFAM_1:def 5;
then (h . B) /\ (h . C) in (INTERSECTION (B,C)) \ {{}} by A50, XBOOLE_0:def 5;
then A54: (h . B) /\ (h . C) in B '/\' C by PARTIT1:def 4;
((h . B) /\ (h . C)) /\ (h . D) c= x then ((h . B) /\ (h . C)) /\ (h . D) = x by A47, XBOOLE_0:def 10;
then x in INTERSECTION ((B '/\' C),D) by A51, A54, SETFAM_1:def 5;
then x in (INTERSECTION ((B '/\' C),D)) \ {{}} by A52, XBOOLE_0:def 5;
hence x in (B '/\' C) '/\' D by PARTIT1:def 4; :: thesis: verum