then p = (0. (TOP-REAL 2)) + (1 * ((1 / 2) * ((G * ((len G),j)) + (G * ((len G),(j + 1)))))) by A4, RLVECT_1:10
.= 1 * ((1 / 2) * ((G * ((len G),j)) + (G * ((len G),(j + 1))))) by RLVECT_1:4
.= (1 / 2) * ((G * ((len G),j)) + (G * ((len G),(j + 1)))) by RLVECT_1:def 8 ;
hence p in {((1 / 2) * ((G * ((len G),j)) + (G * ((len G),(j + 1)))))} by TARSKI:def 1; :: thesis: verum

set r3 = (1 - r) * (1 / 2);
set s3 = r * (1 / 2);
set r2 = (G * ((len G),1)) `1 ;
set s1 = (G * (1,j)) `2 ;
set s2 = (G * (1,(j + 1))) `2 ;
A8: (((1 - r) * (1 / 2)) * (((G * (1,j)) `2) + ((G * (1,j)) `2))) + ((r * (1 / 2)) * (((G * (1,j)) `2) + ((G * (1,j)) `2))) = (G * (1,j)) `2 ;
A9: j + 1 <= width G by A2, NAT_1:13;
0 <> len G by MATRIX_0:def 10;
then A10: 1 <= len G by NAT_1:14;
j < j + 1 by XREAL_1:29;
then A11: (G * (1,j)) `2 < (G * (1,(j + 1))) `2 by A1, A9, A10, GOBOARD5:4;
then A12: ((G * (1,j)) `2) + ((G * (1,j)) `2) < ((G * (1,j)) `2) + ((G * (1,(j + 1))) `2) by XREAL_1:6;
then A13: (r * (1 / 2)) * (((G * (1,j)) `2) + ((G * (1,j)) `2)) <= (r * (1 / 2)) * (((G * (1,j)) `2) + ((G * (1,(j + 1))) `2)) by A5, XREAL_1:64;
A14: 1 - r > 0 by A7, XREAL_1:50;
then A15: (1 - r) * (1 / 2) > (1 / 2) * 0 by XREAL_1:68;
then ((1 - r) * (1 / 2)) * (((G * (1,j)) `2) + ((G * (1,j)) `2)) < ((1 - r) * (1 / 2)) * (((G * (1,j)) `2) + ((G * (1,(j + 1))) `2)) by A12, XREAL_1:68;
then A16: (G * (1,j)) `2 < (((1 - r) * (1 / 2)) * (((G * (1,j)) `2) + ((G * (1,(j + 1))) `2))) + ((r * (1 / 2)) * (((G * (1,j)) `2) + ((G * (1,(j + 1))) `2))) by A13, A8, XREAL_1:8;
A17: ((G * ((len G),1)) `1) + (1 - r) > (G * ((len G),1)) `1 by A14, XREAL_1:29;
A18: 1 <= j + 1 by A1, NAT_1:13;
A19: ((G * (1,j)) `2) + ((G * (1,(j + 1))) `2) < ((G * (1,(j + 1))) `2) + ((G * (1,(j + 1))) `2) by A11, XREAL_1:6;
then A20: (r * (1 / 2)) * (((G * (1,j)) `2) + ((G * (1,(j + 1))) `2)) <= (r * (1 / 2)) * (((G * (1,(j + 1))) `2) + ((G * (1,(j + 1))) `2)) by A5, XREAL_1:64;
A21: Int (cell (G,(len G),j)) = { |[r9,s9]| where r9, s9 is Real : ( (G * ((len G),1)) `1 < r9 & (G * (1,j)) `2 < s9 & s9 < (G * (1,(j + 1))) `2 ) } by A1, A2, Th23;
A22: (((1 - r) * (1 / 2)) * (((G * (1,(j + 1))) `2) + ((G * (1,(j + 1))) `2))) + ((r * (1 / 2)) * (((G * (1,(j + 1))) `2) + ((G * (1,(j + 1))) `2))) = (G * (1,(j + 1))) `2 ;
((1 - r) * (1 / 2)) * (((G * (1,j)) `2) + ((G * (1,(j + 1))) `2)) < ((1 - r) * (1 / 2)) * (((G * (1,(j + 1))) `2) + ((G * (1,(j + 1))) `2)) by A15, A19, XREAL_1:68;
then A23: (((1 - r) * (1 / 2)) * (((G * (1,j)) `2) + ((G * (1,(j + 1))) `2))) + ((r * (1 / 2)) * (((G * (1,j)) `2) + ((G * (1,(j + 1))) `2))) < (G * (1,(j + 1))) `2 by A20, A22, XREAL_1:8;
A24: G * ((len G),j) = |[((G * ((len G),j)) `1),((G * ((len G),j)) `2)]| by EUCLID:53
.= |[((G * ((len G),1)) `1),((G * ((len G),j)) `2)]| by A1, A2, A10, GOBOARD5:2
.= |[((G * ((len G),1)) `1),((G * (1,j)) `2)]| by A1, A2, A10, GOBOARD5:1 ;
A25: G * ((len G),(j + 1)) = |[((G * ((len G),(j + 1))) `1),((G * ((len G),(j + 1))) `2)]| by EUCLID:53
.= |[((G * ((len G),1)) `1),((G * ((len G),(j + 1))) `2)]| by A18, A9, A10, GOBOARD5:2
.= |[((G * ((len G),1)) `1),((G * (1,(j + 1))) `2)]| by A18, A9, A10, GOBOARD5:1 ;
p = (((1 - r) * ((1 / 2) * ((G * ((len G),j)) + (G * ((len G),(j + 1)))))) + ((1 - r) * |[1,0]|)) + (r * ((1 / 2) * ((G * ((len G),j)) + (G * ((len G),(j + 1)))))) by A4, RLVECT_1:def 5
.= ((((1 - r) * (1 / 2)) * ((G * ((len G),j)) + (G * ((len G),(j + 1))))) + ((1 - r) * |[1,0]|)) + (r * ((1 / 2) * ((G * ((len G),j)) + (G * ((len G),(j + 1)))))) by RLVECT_1:def 7
.= ((((1 - r) * (1 / 2)) * ((G * ((len G),j)) + (G * ((len G),(j + 1))))) + |[((1 - r) * 1),((1 - r) * 0)]|) + (r * ((1 / 2) * ((G * ((len G),j)) + (G * ((len G),(j + 1)))))) by EUCLID:58
.= ((((1 - r) * (1 / 2)) * ((G * ((len G),j)) + (G * ((len G),(j + 1))))) + |[(1 - r),0]|) + ((r * (1 / 2)) * ((G * ((len G),j)) + (G * ((len G),(j + 1))))) by RLVECT_1:def 7
.= ((((1 - r) * (1 / 2)) * |[(((G * ((len G),1)) `1) + ((G * ((len G),1)) `1)),(((G * (1,j)) `2) + ((G * (1,(j + 1))) `2))]|) + |[(1 - r),0]|) + ((r * (1 / 2)) * ((G * ((len G),j)) + (G * ((len G),(j + 1))))) by A25, A24, EUCLID:56
.= ((((1 - r) * (1 / 2)) * |[(((G * ((len G),1)) `1) + ((G * ((len G),1)) `1)),(((G * (1,j)) `2) + ((G * (1,(j + 1))) `2))]|) + |[(1 - r),0]|) + ((r * (1 / 2)) * |[(((G * ((len G),1)) `1) + ((G * ((len G),1)) `1)),(((G * (1,j)) `2) + ((G * (1,(j + 1))) `2))]|) by A25, A24, EUCLID:56
.= (|[(((1 - r) * (1 / 2)) * (((G * ((len G),1)) `1) + ((G * ((len G),1)) `1))),(((1 - r) * (1 / 2)) * (((G * (1,j)) `2) + ((G * (1,(j + 1))) `2)))]| + |[(1 - r),0]|) + ((r * (1 / 2)) * |[(((G * ((len G),1)) `1) + ((G * ((len G),1)) `1)),(((G * (1,j)) `2) + ((G * (1,(j + 1))) `2))]|) by EUCLID:58
.= (|[(((1 - r) * (1 / 2)) * (((G * ((len G),1)) `1) + ((G * ((len G),1)) `1))),(((1 - r) * (1 / 2)) * (((G * (1,j)) `2) + ((G * (1,(j + 1))) `2)))]| + |[(1 - r),0]|) + |[((r * (1 / 2)) * (((G * ((len G),1)) `1) + ((G * ((len G),1)) `1))),((r * (1 / 2)) * (((G * (1,j)) `2) + ((G * (1,(j + 1))) `2)))]| by EUCLID:58
.= |[((((1 - r) * (1 / 2)) * (((G * ((len G),1)) `1) + ((G * ((len G),1)) `1))) + (1 - r)),((((1 - r) * (1 / 2)) * (((G * (1,j)) `2) + ((G * (1,(j + 1))) `2))) + 0)]| + |[((r * (1 / 2)) * (((G * ((len G),1)) `1) + ((G * ((len G),1)) `1))),((r * (1 / 2)) * (((G * (1,j)) `2) + ((G * (1,(j + 1))) `2)))]| by EUCLID:56
.= |[(((((1 - r) * (1 / 2)) * (((G * ((len G),1)) `1) + ((G * ((len G),1)) `1))) + (1 - r)) + ((r * (1 / 2)) * (((G * ((len G),1)) `1) + ((G * ((len G),1)) `1)))),((((1 - r) * (1 / 2)) * (((G * (1,j)) `2) + ((G * (1,(j + 1))) `2))) + ((r * (1 / 2)) * (((G * (1,j)) `2) + ((G * (1,(j + 1))) `2))))]| by EUCLID:56 ;
hence p in Int (cell (G,(len G),j)) by A17, A16, A23, A21; :: thesis: verum