let k, i, j be Element of NAT ; for f being standard special_circular_sequence st 1 <= k & k + 1 <= len f & [(i + 1),j] in Indices (GoB f) & [(i + 1),(j + 1)] in Indices (GoB f) & f /. k = (GoB f) * (i + 1),j & f /. (k + 1) = (GoB f) * (i + 1),(j + 1) holds
( left_cell f,k = cell (GoB f),i,j & right_cell f,k = cell (GoB f),(i + 1),j )
let f be standard special_circular_sequence; ( 1 <= k & k + 1 <= len f & [(i + 1),j] in Indices (GoB f) & [(i + 1),(j + 1)] in Indices (GoB f) & f /. k = (GoB f) * (i + 1),j & f /. (k + 1) = (GoB f) * (i + 1),(j + 1) implies ( left_cell f,k = cell (GoB f),i,j & right_cell f,k = cell (GoB f),(i + 1),j ) )
assume that
A1:
1 <= k
and
A2:
k + 1 <= len f
and
A3:
[(i + 1),j] in Indices (GoB f)
and
A4:
[(i + 1),(j + 1)] in Indices (GoB f)
and
A5:
f /. k = (GoB f) * (i + 1),j
and
A6:
f /. (k + 1) = (GoB f) * (i + 1),(j + 1)
; ( left_cell f,k = cell (GoB f),i,j & right_cell f,k = cell (GoB f),(i + 1),j )
A7:
j < j + 1
by XREAL_1:31;
A8:
j + 1 <= (j + 1) + 1
by NAT_1:11;
hence left_cell f,k =
cell (GoB f),((i + 1) -' 1),j
by A1, A2, A3, A4, A5, A6, A7, Def7
.=
cell (GoB f),i,j
by NAT_D:34
;
right_cell f,k = cell (GoB f),(i + 1),j
thus
right_cell f,k = cell (GoB f),(i + 1),j
by A1, A2, A3, A4, A5, A6, A7, A8, Def6; verum