let i1, j1 be Element of NAT ; :: thesis: for G being Go-board st 1 <= i1 & i1 <= len G & 1 <= j1 & j1 + 1 <= width G holds
for i2, j2 being Element of NAT holds
( not 1 <= i2 or not i2 + 1 <= len G or not 1 <= j2 or not j2 <= width G or not (1 / 2) * ((G * i1,j1) + (G * i1,(j1 + 1))) in LSeg (G * i2,j2),(G * (i2 + 1),j2) )
let G be Go-board; :: thesis: ( 1 <= i1 & i1 <= len G & 1 <= j1 & j1 + 1 <= width G implies for i2, j2 being Element of NAT holds
( not 1 <= i2 or not i2 + 1 <= len G or not 1 <= j2 or not j2 <= width G or not (1 / 2) * ((G * i1,j1) + (G * i1,(j1 + 1))) in LSeg (G * i2,j2),(G * (i2 + 1),j2) ) )
assume that
A1: ( 1 <= i1 & i1 <= len G ) and
A2: ( 1 <= j1 & j1 + 1 <= width G ) ; :: thesis: for i2, j2 being Element of NAT holds
( not 1 <= i2 or not i2 + 1 <= len G or not 1 <= j2 or not j2 <= width G or not (1 / 2) * ((G * i1,j1) + (G * i1,(j1 + 1))) in LSeg (G * i2,j2),(G * (i2 + 1),j2) )
set mi = (1 / 2) * ((G * i1,j1) + (G * i1,(j1 + 1)));
given i2, j2 being Element of NAT such that A3: ( 1 <= i2 & i2 + 1 <= len G ) and
A4: ( 1 <= j2 & j2 <= width G ) and
A5: (1 / 2) * ((G * i1,j1) + (G * i1,(j1 + 1))) in LSeg (G * i2,j2),(G * (i2 + 1),j2) ; :: thesis: contradiction
A6: j1 < j1 + 1 by XREAL_1:31;
A7: ((1 / 2) * (G * i1,j1)) + ((1 / 2) * (G * i1,(j1 + 1))) = (1 / 2) * ((G * i1,j1) + (G * i1,(j1 + 1))) by EUCLID:36;
then A8: (1 / 2) * ((G * i1,j1) + (G * i1,(j1 + 1))) in LSeg (G * i1,j1),(G * i1,(j1 + 1)) by Lm1;
then A9: LSeg (G * i1,j1),(G * i1,(j1 + 1)) meets LSeg (G * i2,j2),(G * (i2 + 1),j2) by A5, XBOOLE_0:3;