let Y be non empty set ; :: thesis: for G being Subset of (PARTITIONS Y)

for a being Function of Y,BOOLEAN

for PA being a_partition of Y holds Ex ((O_el Y),PA,G) = O_el Y

let G be Subset of (PARTITIONS Y); :: thesis: for a being Function of Y,BOOLEAN

for PA being a_partition of Y holds Ex ((O_el Y),PA,G) = O_el Y

let a be Function of Y,BOOLEAN; :: thesis: for PA being a_partition of Y holds Ex ((O_el Y),PA,G) = O_el Y

let PA be a_partition of Y; :: thesis: Ex ((O_el Y),PA,G) = O_el Y

for z being Element of Y holds (Ex ((O_el Y),PA,G)) . z = FALSE

for a being Function of Y,BOOLEAN

for PA being a_partition of Y holds Ex ((O_el Y),PA,G) = O_el Y

let G be Subset of (PARTITIONS Y); :: thesis: for a being Function of Y,BOOLEAN

for PA being a_partition of Y holds Ex ((O_el Y),PA,G) = O_el Y

let a be Function of Y,BOOLEAN; :: thesis: for PA being a_partition of Y holds Ex ((O_el Y),PA,G) = O_el Y

let PA be a_partition of Y; :: thesis: Ex ((O_el Y),PA,G) = O_el Y

for z being Element of Y holds (Ex ((O_el Y),PA,G)) . z = FALSE

proof

hence
Ex ((O_el Y),PA,G) = O_el Y
by BVFUNC_1:def 10; :: thesis: verum
let z be Element of Y; :: thesis: (Ex ((O_el Y),PA,G)) . z = FALSE

for x being Element of Y st x in EqClass (z,(CompF (PA,G))) holds

(O_el Y) . x <> TRUE by BVFUNC_1:def 10;

hence (Ex ((O_el Y),PA,G)) . z = FALSE by BVFUNC_1:def 17; :: thesis: verum

end;for x being Element of Y st x in EqClass (z,(CompF (PA,G))) holds

(O_el Y) . x <> TRUE by BVFUNC_1:def 10;

hence (Ex ((O_el Y),PA,G)) . z = FALSE by BVFUNC_1:def 17; :: thesis: verum