let Y be non empty set ; :: thesis:
let a, b be Element of Funcs Y,BOOLEAN ; :: thesis:
A1: for x being Element of Y holds (b 'imp' ((b 'imp' a) 'imp' a)) . x = (I_el Y) . x

let x be Element of Y; :: thesis:

A2: now

per cases by XBOOLEAN:def 3;

case b . x = TRUE ; :: thesis:

hence ('not' (b . x)) 'or' (b . x) = TRUE by BINARITH:19; :: thesis:

end;

case b . x = FALSE ; :: thesis:

then ('not' (b . x)) 'or' (b . x) = TRUE 'or' FALSE by MARGREL1:41
.= TRUE by BINARITH:19 ;
hence ('not' (b . x)) 'or' (b . x) = TRUE ; :: thesis:

end;

A3: now

per cases by XBOOLEAN:def 3;

case a . x = TRUE ; :: thesis:

hence ('not' (a . x)) 'or' (a . x) = TRUE by BINARITH:19; :: thesis:

end;

case a . x = FALSE ; :: thesis:

then ('not' (a . x)) 'or' (a . x) = TRUE 'or' FALSE by MARGREL1:41
.= TRUE by BINARITH:19 ;
hence ('not' (a . x)) 'or' (a . x) = TRUE ; :: thesis:

end;

(b 'imp' ((b 'imp' a) 'imp' a)) . x = ('not' (b . x)) 'or' (((b 'imp' a) 'imp' a) . x) by BVFUNC_1:def 11
.= ('not' (b . x)) 'or' (('not' ((b 'imp' a) . x)) 'or' (a . x)) by BVFUNC_1:def 11
.= ('not' (b . x)) 'or' (('not' (('not' (b . x)) 'or' (a . x))) 'or' (a . x)) by BVFUNC_1:def 11
.= ('not' (b . x)) 'or' (((a . x) 'or' (b . x)) '&' TRUE ) by A3, XBOOLEAN:9
.= ('not' (b . x)) 'or' ((a . x) 'or' (b . x)) by MARGREL1:50
.= (('not' (b . x)) 'or' (b . x)) 'or' (a . x) by BINARITH:20
.= TRUE by A2, BINARITH:19 ;
hence (b 'imp' ((b 'imp' a) 'imp' a)) . x = (I_el Y) . x by BVFUNC_1:def 14; :: thesis:

end;

consider k3 being Function such that
A4: ( b 'imp' ((b 'imp' a) 'imp' a) = k3 & dom k3 = Y & rng k3 c= BOOLEAN ) by FUNCT_2:def 2;
consider k4 being Function such that
A5: ( I_el Y = k4 & dom k4 = Y & rng k4 c= BOOLEAN ) by FUNCT_2:def 2;
for u being set st u in Y holds
k3 . u = k4 . u by A1, A4, A5;
hence b 'imp' ((b 'imp' a) 'imp' a) = I_el Y by A4, A5, FUNCT_1:9; :: thesis: