let i, j, m, n be Nat; :: thesis: for X being BCK-algebra of i,j,m,n
for x, y being Element of X holds (x,y) to_power (i + 1) = (x,y) to_power (n + 1)
let X be BCK-algebra of i,j,m,n; :: thesis: for x, y being Element of X holds (x,y) to_power (i + 1) = (x,y) to_power (n + 1)
let x, y be Element of X; :: thesis: (x,y) to_power (i + 1) = (x,y) to_power (n + 1)
A1: (x \ y) \ x = (x \ x) \ y by BCIALG_1:7
.= y ` by BCIALG_1:def 5
.= 0. X by BCIALG_1:def 8 ;
then A2: Polynom ((m + 1),n,(x \ y),x) = ((x \ y),(x \ (x \ y))) to_power n by BCIALG_2:5
.= ((x \ (x \ (x \ y))),(x \ (x \ y))) to_power n by BCIALG_1:8
.= (((x,(x \ (x \ y))) to_power 1),(x \ (x \ y))) to_power n by BCIALG_2:2
.= (x,(x \ (x \ y))) to_power (n + 1) by BCIALG_2:10
.= (x,y) to_power (n + 1) by BCIALG_2:8 ;
X is BCI-algebra of m,n,i,j by Th13;
then A3: X is BCI-algebra of m + 1,n,i,j + 1 by Th14;
Polynom (i,(j + 1),x,(x \ y)) = (x,(x \ (x \ y))) to_power (i + 1) by A1, BCIALG_2:5
.= (x,y) to_power (i + 1) by BCIALG_2:8 ;
hence (x,y) to_power (i + 1) = (x,y) to_power (n + 1) by A2, A3, Def3; :: thesis: verum