{ F₂(v9) where v9 is Element of F₁() : P₁[v9] } c= { F₂(u9) where u9 is Element of F₁() : P₂[u9] }

A1: for v being Element of F₁() st P₁[v] holds
P₂[v]

{ F₃(u1,v1) where u1 is Element of F₁(), v1 is Element of F₂() : P₁[u1,v1] } c= { F₃(u2,v2) where u2 is Element of F₁(), v2 is Element of F₂() : P₂[u2,v2] }

A1: for u being Element of F₁()
for v being Element of F₂() st P₁[u,v] holds
P₂[u,v]

{ F₂(v1) where v1 is Element of F₁() : P₁[v1] } = { F₂(v2) where v2 is Element of F₁() : P₂[v2] }

A1: for v being Element of F₁() holds
( P₁[v] iff P₂[v] )

{ F₃(u1,v1) where u1 is Element of F₁(), v1 is Element of F₂() : P₁[u1,v1] } = { F₃(u2,v2) where u2 is Element of F₁(), v2 is Element of F₂() : P₂[u2,v2] }

A1: for u being Element of F₁()
for v being Element of F₂() holds
( P₁[u,v] iff P₂[u,v] )

{ F₂(v1) where v1 is Element of F₁() : P₁[v1] } = { F₃(v2) where v2 is Element of F₁() : P₁[v2] }

A1: for v being Element of F₁() holds F₂(v) = F₃(v)

{ F₂(v1) where v1 is Element of F₁() : P₁[v1] } = { F₃(v2) where v2 is Element of F₁() : P₁[v2] }

A1: for v being Element of F₁() st P₁[v] holds
F₂(v) = F₃(v)

{ F₃(u1,v1) where u1 is Element of F₁(), v1 is Element of F₂() : P₁[u1,v1] } = { F₄(u2,v2) where u2 is Element of F₁(), v2 is Element of F₂() : P₁[u2,v2] }

A1: for u being Element of F₁()
for v being Element of F₂() holds F₃(u,v) = F₄(u,v)

{ F₃(u1,v1) where u1 is Element of F₁(), v1 is Element of F₂() : P₁[u1,v1] } = { F₃(v2,u2) where u2 is Element of F₁(), v2 is Element of F₂() : P₂[u2,v2] }

A1: for u being Element of F₁()
for v being Element of F₂() holds
( P₁[u,v] iff P₂[u,v] ) and
A2: for u being Element of F₁()
for v being Element of F₂() holds F₃(u,v) = F₃(v,u)

{ (F₄() . u9) where u9 is Element of F₁() : ( P₁[u9] & u9 in F₃() ) } = { (F₅() . v9) where v9 is Element of F₁() : ( P₂[v9] & v9 in F₃() ) }

A1: F₄() | F₃() = F₅() | F₃() and
A2: for u being Element of F₁() st u in F₃() holds
( P₁[u] iff P₂[u] )

{ x where x is Element of F₁() : P₁[x] } c= F₁()

for s being Element of F₁()
for t being Element of F₂() st P₁[s,t] holds
P₂[F₃(s,t)]

A1: for st1 being set st st1 in { F₃(s1,t1) where s1 is Element of F₁(), t1 is Element of F₂() : P₁[s1,t1] } holds
P₂[st1]

for st1 being set st st1 in { F₃(s1,t1) where s1 is Element of F₁(), t1 is Element of F₂() : P₁[s1,t1] } holds
P₂[st1]

A1: for s being Element of F₁()
for t being Element of F₂() st P₁[s,t] holds
P₂[F₃(s,t)]

{ st1 where st1 is Element of F₃() : ( st1 in { F₄(s1,t1) where s1 is Element of F₁(), t1 is Element of F₂() : P₁[s1,t1] } & P₂[st1] ) } = { F₄(s2,t2) where s2 is Element of F₁(), t2 is Element of F₂() : ( P₁[s2,t2] & P₂[F₄(s2,t2)] ) }

{ F₂(s) where s is Element of F₁() : ( s in { s1 where s1 is Element of F₁() : P₂[s1] } & P₁[s] ) } = { F₂(s2) where s2 is Element of F₁() : ( P₂[s2] & P₁[s2] ) }

{ F₃(s,t) where s is Element of F₁(), t is Element of F₂() : ( s in { s1 where s1 is Element of F₁() : P₂[s1] } & P₁[s,t] ) } = { F₃(s2,t2) where s2 is Element of F₁(), t2 is Element of F₂() : ( P₂[s2] & P₁[s2,t2] ) }

{ F₃(s,t) where s is Element of F₁(), t is Element of F₂() : P₁[s,t] } c= { F₃(s1,t1) where s1 is Element of F₁(), t1 is Element of F₂() : P₂[s1,t1] }

A1: for s being Element of F₁()
for t being Element of F₂() st P₁[s,t] holds
ex s9 being Element of F₁() st
( P₂[s9,t] & F₃(s,t) = F₃(s9,t) )

{ F₃(y) where y is Element of F₁() : ( F₃(y) in F₂() & P₁[y] ) } c= F₂()

{ F₃(y) where y is Element of F₁() : ( P₁[y] & not F₃(y) in F₂() ) } misses F₂()

{ F₃(s,t) where s is Element of F₁(), t is Element of F₂() : P₂[s,t] } = { F₃(s9,F₄()) where s9 is Element of F₁() : P₁[s9,F₄()] }

A1: for s being Element of F₁()
for t being Element of F₂() holds
( P₂[s,t] iff ( t = F₄() & P₁[s,t] ) )

{ F₃(s,t) where s is Element of F₁(), t is Element of F₂() : ( t = F₄() & P₁[s,t] ) } = { F₃(s9,F₄()) where s9 is Element of F₁() : P₁[s9,F₄()] }

{ F₃(w) where w is Element of F₁() : w in F₂() } is finite

A1: F₂() is finite

{ F₅(u9,v9) where u9 is Element of F₁(), v9 is Element of F₂() : ( u9 in F₃() & v9 in F₄() ) } is finite

A1: F₃() is finite and
A2: F₄() is finite

for x being Element of F₁() st x in F₂() holds
ex y being Element of F₁() st
( y in F₂() & P₁[y,x] & ( for z being Element of F₁() st z in F₂() & P₁[z,y] holds
P₁[y,z] ) )

A1: for x being Element of F₁() holds P₁[x,x] and
A2: for x, y, z being Element of F₁() st P₁[x,y] & P₁[y,z] holds
P₁[x,z]

ex c1 being Element of Fin F₁() st
for t being Element of F₁() holds
( t in c1 iff ex t9 being Element of F₂() st
( t9 in F₃() & t = F₄(t9) & P₁[t,t9] ) )

let A, B be finite set ;
cluster Funcs (A,B) -> finite ;
coherence
Funcs (A,B) is finite by Th16;

{ F₅(phi9) where phi9 is Element of Funcs (F₁(),F₂()) : phi9 .: F₃() c= F₄() } is finite

A1: F₃() is finite and
A2: F₄() is finite and
A3: for phi, psi being Element of Funcs (F₁(),F₂()) st phi | F₃() = psi | F₃() holds
F₅(phi) = F₅(psi)

ex ff being Function of F₁(),F₂() st
for t being Element of F₁() st t in F₃() holds
P₁[t,ff . t]

A1: for t being Element of F₁() st t in F₃() holds
ex ff being Element of F₂() st P₁[t,ff]

ex ff being Element of Funcs (F₁(),F₂()) st
for t being Element of F₁() st t in F₃() holds
P₁[t,ff . t]

A1: for t being Element of F₁() st t in F₃() holds
ex ff being Element of F₂() st P₁[t,ff]

{ x where x is Element of F₂() : ex w being Element of F₁() st
( P₁[w,x] & w in F₃() ) } is finite

A1: F₃() is finite and
A2: for w being Element of F₁()
for x, y being Element of F₂() st P₁[w,x] & P₁[w,y] holds
x = y