let X be set ; :: thesis: ( X <> {} implies ex Y being set st
( Y in X & ( for Y1, Y2, Y3, Y4, Y5, Y6, Y7, Y8, Y9, YA, YB, YC being set st Y1 in Y2 & Y2 in Y3 & Y3 in Y4 & Y4 in Y5 & Y5 in Y6 & Y6 in Y7 & Y7 in Y8 & Y8 in Y9 & Y9 in YA & YA in YB & YB in YC & YC in Y holds
Y1 misses X ) ) )
defpred S₁[ set ] means ex Y1, Y2, Y3, Y4, Y5, Y6, Y7, Y8, Y9, YA, YB being set st
( Y1 in Y2 & Y2 in Y3 & Y3 in Y4 & Y4 in Y5 & Y5 in Y6 & Y6 in Y7 & Y7 in Y8 & Y8 in Y9 & Y9 in YA & YA in YB & YB in $1 & Y1 meets X );
consider Z1 being set such that
A1: for Y being set holds
( Y in Z1 iff ( Y in union X & S₁[Y] ) ) from XBOOLE_0:sch 1();
defpred S₂[ set ] means ex Y1, Y2, Y3, Y4, Y5, Y6, Y7, Y8, Y9, YA being set st
( Y1 in Y2 & Y2 in Y3 & Y3 in Y4 & Y4 in Y5 & Y5 in Y6 & Y6 in Y7 & Y7 in Y8 & Y8 in Y9 & Y9 in YA & YA in $1 & Y1 meets X );
consider Z2 being set such that
A2: for Y being set holds
( Y in Z2 iff ( Y in union (union X) & S₂[Y] ) ) from XBOOLE_0:sch 1();
defpred S₃[ set ] means ex Y1, Y2, Y3, Y4, Y5, Y6, Y7, Y8, Y9 being set st
( Y1 in Y2 & Y2 in Y3 & Y3 in Y4 & Y4 in Y5 & Y5 in Y6 & Y6 in Y7 & Y7 in Y8 & Y8 in Y9 & Y9 in $1 & Y1 meets X );
consider Z3 being set such that
A3: for Y being set holds
( Y in Z3 iff ( Y in union (union (union X)) & S₃[Y] ) ) from XBOOLE_0:sch 1();
defpred S₄[ set ] means ex Y1, Y2, Y3, Y4, Y5, Y6, Y7, Y8 being set st
( Y1 in Y2 & Y2 in Y3 & Y3 in Y4 & Y4 in Y5 & Y5 in Y6 & Y6 in Y7 & Y7 in Y8 & Y8 in $1 & Y1 meets X );
consider Z4 being set such that
A4: for Y being set holds
( Y in Z4 iff ( Y in union (union (union (union X))) & S₄[Y] ) ) from XBOOLE_0:sch 1();
defpred S₅[ set ] means ex Y1, Y2, Y3, Y4, Y5, Y6, Y7 being set st
( Y1 in Y2 & Y2 in Y3 & Y3 in Y4 & Y4 in Y5 & Y5 in Y6 & Y6 in Y7 & Y7 in $1 & Y1 meets X );
consider Z5 being set such that
A5: for Y being set holds
( Y in Z5 iff ( Y in union (union (union (union (union X)))) & S₅[Y] ) ) from XBOOLE_0:sch 1();
defpred S₆[ set ] means ex Y1, Y2, Y3, Y4, Y5, Y6 being set st
( Y1 in Y2 & Y2 in Y3 & Y3 in Y4 & Y4 in Y5 & Y5 in Y6 & Y6 in $1 & Y1 meets X );
consider Z6 being set such that
A6: for Y being set holds
( Y in Z6 iff ( Y in union (union (union (union (union (union X))))) & S₆[Y] ) ) from XBOOLE_0:sch 1();
defpred S₇[ set ] means ex Y1, Y2, Y3, Y4, Y5 being set st
( Y1 in Y2 & Y2 in Y3 & Y3 in Y4 & Y4 in Y5 & Y5 in $1 & Y1 meets X );
consider Z7 being set such that
A7: for Y being set holds
( Y in Z7 iff ( Y in union (union (union (union (union (union (union X)))))) & S₇[Y] ) ) from XBOOLE_0:sch 1();
defpred S₈[ set ] means ex Y1, Y2, Y3, Y4 being set st
( Y1 in Y2 & Y2 in Y3 & Y3 in Y4 & Y4 in $1 & Y1 meets X );
consider Z8 being set such that
A8: for Y being set holds
( Y in Z8 iff ( Y in union (union (union (union (union (union (union (union X))))))) & S₈[Y] ) ) from XBOOLE_0:sch 1();
defpred S₉[ set ] means ex Y1, Y2, Y3 being set st
( Y1 in Y2 & Y2 in Y3 & Y3 in $1 & Y1 meets X );
consider Z9 being set such that
A9: for Y being set holds
( Y in Z9 iff ( Y in union (union (union (union (union (union (union (union (union X)))))))) & S₉[Y] ) ) from XBOOLE_0:sch 1();
defpred S₁₀[ set ] means ex Y1, Y2 being set st
( Y1 in Y2 & Y2 in $1 & Y1 meets X );
consider ZA being set such that
A10: for Y being set holds
( Y in ZA iff ( Y in union (union (union (union (union (union (union (union (union (union X))))))))) & S₁₀[Y] ) ) from XBOOLE_0:sch 1();
defpred S₁₁[ set ] means ex Y1 being set st
( Y1 in $1 & Y1 meets X );
consider ZB being set such that
A11: for Y being set holds
( Y in ZB iff ( Y in union (union (union (union (union (union (union (union (union (union (union X)))))))))) & S₁₁[Y] ) ) from XBOOLE_0:sch 1();
defpred S₁₂[ set ] means $1 meets X;
consider ZC being set such that
A12: for Y being set holds
( Y in ZC iff ( Y in union (union (union (union (union (union (union (union (union (union (union (union X))))))))))) & S₁₂[Y] ) ) from XBOOLE_0:sch 1();
set V = (((((((((((X \/ Z1) \/ Z2) \/ Z3) \/ Z4) \/ Z5) \/ Z6) \/ Z7) \/ Z8) \/ Z9) \/ ZA) \/ ZB) \/ ZC;
A13: (((((((((((X \/ Z1) \/ Z2) \/ Z3) \/ Z4) \/ Z5) \/ Z6) \/ Z7) \/ Z8) \/ Z9) \/ ZA) \/ ZB) \/ ZC = ((((((((((X \/ (Z1 \/ Z2)) \/ Z3) \/ Z4) \/ Z5) \/ Z6) \/ Z7) \/ Z8) \/ Z9) \/ ZA) \/ ZB) \/ ZC by XBOOLE_1:4
.= (((((((((X \/ ((Z1 \/ Z2) \/ Z3)) \/ Z4) \/ Z5) \/ Z6) \/ Z7) \/ Z8) \/ Z9) \/ ZA) \/ ZB) \/ ZC by XBOOLE_1:4
.= ((((((((X \/ (((Z1 \/ Z2) \/ Z3) \/ Z4)) \/ Z5) \/ Z6) \/ Z7) \/ Z8) \/ Z9) \/ ZA) \/ ZB) \/ ZC by XBOOLE_1:4
.= (((((((X \/ ((((Z1 \/ Z2) \/ Z3) \/ Z4) \/ Z5)) \/ Z6) \/ Z7) \/ Z8) \/ Z9) \/ ZA) \/ ZB) \/ ZC by XBOOLE_1:4
.= ((((((X \/ (((((Z1 \/ Z2) \/ Z3) \/ Z4) \/ Z5) \/ Z6)) \/ Z7) \/ Z8) \/ Z9) \/ ZA) \/ ZB) \/ ZC by XBOOLE_1:4
.= (((((X \/ ((((((Z1 \/ Z2) \/ Z3) \/ Z4) \/ Z5) \/ Z6) \/ Z7)) \/ Z8) \/ Z9) \/ ZA) \/ ZB) \/ ZC by XBOOLE_1:4
.= ((((X \/ (((((((Z1 \/ Z2) \/ Z3) \/ Z4) \/ Z5) \/ Z6) \/ Z7) \/ Z8)) \/ Z9) \/ ZA) \/ ZB) \/ ZC by XBOOLE_1:4
.= (((X \/ ((((((((Z1 \/ Z2) \/ Z3) \/ Z4) \/ Z5) \/ Z6) \/ Z7) \/ Z8) \/ Z9)) \/ ZA) \/ ZB) \/ ZC by XBOOLE_1:4
.= ((X \/ (((((((((Z1 \/ Z2) \/ Z3) \/ Z4) \/ Z5) \/ Z6) \/ Z7) \/ Z8) \/ Z9) \/ ZA)) \/ ZB) \/ ZC by XBOOLE_1:4
.= (X \/ ((((((((((Z1 \/ Z2) \/ Z3) \/ Z4) \/ Z5) \/ Z6) \/ Z7) \/ Z8) \/ Z9) \/ ZA) \/ ZB)) \/ ZC by XBOOLE_1:4
.= X \/ (((((((((((Z1 \/ Z2) \/ Z3) \/ Z4) \/ Z5) \/ Z6) \/ Z7) \/ Z8) \/ Z9) \/ ZA) \/ ZB) \/ ZC) by XBOOLE_1:4 ;
assume X <> {} ; :: thesis: ex Y being set st
( Y in X & ( for Y1, Y2, Y3, Y4, Y5, Y6, Y7, Y8, Y9, YA, YB, YC being set st Y1 in Y2 & Y2 in Y3 & Y3 in Y4 & Y4 in Y5 & Y5 in Y6 & Y6 in Y7 & Y7 in Y8 & Y8 in Y9 & Y9 in YA & YA in YB & YB in YC & YC in Y holds
Y1 misses X ) )
then (((((((((((X \/ Z1) \/ Z2) \/ Z3) \/ Z4) \/ Z5) \/ Z6) \/ Z7) \/ Z8) \/ Z9) \/ ZA) \/ ZB) \/ ZC <> {} ;
then consider Y being set such that
A14: Y in (((((((((((X \/ Z1) \/ Z2) \/ Z3) \/ Z4) \/ Z5) \/ Z6) \/ Z7) \/ Z8) \/ Z9) \/ ZA) \/ ZB) \/ ZC and
A15: Y misses (((((((((((X \/ Z1) \/ Z2) \/ Z3) \/ Z4) \/ Z5) \/ Z6) \/ Z7) \/ Z8) \/ Z9) \/ ZA) \/ ZB) \/ ZC by MCART_1:1;
assume A16: for Y being set holds
( not Y in X or ex Y1, Y2, Y3, Y4, Y5, Y6, Y7, Y8, Y9, YA, YB, YC being set st
( Y1 in Y2 & Y2 in Y3 & Y3 in Y4 & Y4 in Y5 & Y5 in Y6 & Y6 in Y7 & Y7 in Y8 & Y8 in Y9 & Y9 in YA & YA in YB & YB in YC & YC in Y & not Y1 misses X ) ) ; :: thesis: contradiction
( Y in ((((((((((X \/ Z1) \/ Z2) \/ Z3) \/ Z4) \/ Z5) \/ Z6) \/ Z7) \/ Z8) \/ Z9) \/ ZA) \/ ZB or Y in ZC ) by A14, XBOOLE_0:def 3;
then ( Y in (((((((((X \/ Z1) \/ Z2) \/ Z3) \/ Z4) \/ Z5) \/ Z6) \/ Z7) \/ Z8) \/ Z9) \/ ZA or Y in ZB or Y in ZC ) by XBOOLE_0:def 3;
then ( Y in ((((((((X \/ Z1) \/ Z2) \/ Z3) \/ Z4) \/ Z5) \/ Z6) \/ Z7) \/ Z8) \/ Z9 or Y in ZA or Y in ZB or Y in ZC ) by XBOOLE_0:def 3;
then ( Y in (((((((X \/ Z1) \/ Z2) \/ Z3) \/ Z4) \/ Z5) \/ Z6) \/ Z7) \/ Z8 or Y in Z9 or Y in ZA or Y in ZB or Y in ZC ) by XBOOLE_0:def 3;
then ( Y in ((((((X \/ Z1) \/ Z2) \/ Z3) \/ Z4) \/ Z5) \/ Z6) \/ Z7 or Y in Z8 or Y in Z9 or Y in ZA or Y in ZB or Y in ZC ) by XBOOLE_0:def 3;
then ( Y in (((((X \/ Z1) \/ Z2) \/ Z3) \/ Z4) \/ Z5) \/ Z6 or Y in Z7 or Y in Z8 or Y in Z9 or Y in ZA or Y in ZB or Y in ZC ) by XBOOLE_0:def 3;
then ( Y in ((((X \/ Z1) \/ Z2) \/ Z3) \/ Z4) \/ Z5 or Y in Z6 or Y in Z7 or Y in Z8 or Y in Z9 or Y in ZA or Y in ZB or Y in ZC ) by XBOOLE_0:def 3;
then ( Y in (((X \/ Z1) \/ Z2) \/ Z3) \/ Z4 or Y in Z5 or Y in Z6 or Y in Z7 or Y in Z8 or Y in Z9 or Y in ZA or Y in ZB or Y in ZC ) by XBOOLE_0:def 3;
then ( Y in ((X \/ Z1) \/ Z2) \/ Z3 or Y in Z4 or Y in Z5 or Y in Z6 or Y in Z7 or Y in Z8 or Y in Z9 or Y in ZA or Y in ZB or Y in ZC ) by XBOOLE_0:def 3;
then ( Y in (X \/ Z1) \/ Z2 or Y in Z3 or Y in Z4 or Y in Z5 or Y in Z6 or Y in Z7 or Y in Z8 or Y in Z9 or Y in ZA or Y in ZB or Y in ZC ) by XBOOLE_0:def 3;
then A17: ( Y in X \/ Z1 or Y in Z2 or Y in Z3 or Y in Z4 or Y in Z5 or Y in Z6 or Y in Z7 or Y in Z8 or Y in Z9 or Y in ZA or Y in ZB or Y in ZC ) by XBOOLE_0:def 3;