let H1, H2 be CTL-formula; :: thesis: for V being CTLModelStr
for Kai being Function of atomic_WFF ,the BasicAssign of V holds Evaluate (H1 '&' H2),Kai = (Evaluate H1,Kai) '&' (Evaluate H2,Kai)
let V be CTLModelStr ; :: thesis: for Kai being Function of atomic_WFF ,the BasicAssign of V holds Evaluate (H1 '&' H2),Kai = (Evaluate H1,Kai) '&' (Evaluate H2,Kai)
let Kai be Function of atomic_WFF ,the BasicAssign of V; :: thesis: Evaluate (H1 '&' H2),Kai = (Evaluate H1,Kai) '&' (Evaluate H2,Kai)
consider f0 being Function of CTL_WFF ,the Assignations of V such that
A1: f0 is-Evaluation-for Kai and
A2: Evaluate (H1 '&' H2),Kai = f0 . (H1 '&' H2) by Def32;
consider f1 being Function of CTL_WFF ,the Assignations of V such that
A3: f1 is-Evaluation-for Kai and
A4: Evaluate H1,Kai = f1 . H1 by Def32;
consider f2 being Function of CTL_WFF ,the Assignations of V such that
A5: f2 is-Evaluation-for Kai and
A6: Evaluate H2,Kai = f2 . H2 by Def32;
A7: f0 = f2 by A1, A5, Th4;
A8: H1 '&' H2 is conjunctive by Def16;
then A9: the_left_argument_of (H1 '&' H2) = H1 by Def22;
A10: the_right_argument_of (H1 '&' H2) = H2 by A8, Def23;
f0 = f1 by A1, A3, Th4;
hence Evaluate (H1 '&' H2),Kai = (Evaluate H1,Kai) '&' (Evaluate H2,Kai) by A1, A2, A4, A6, A7, A8, A9, A10, Def26; :: thesis: verum