Formulate the completeness theorem for the system S5. this question is of discrete math a completeness theorem in modal logic

In his paper of 1959, the young Saul Kripke presented a completeness theorem for 1st-order
S5 with equality.
The starting point is a Hilbert-style axiomatization obtained from Rosser’s 1953 first-order
predicate calculus with equality, with the addition of the following axiom schemes and rules
of inference:
A1: ✷A ⊃ A
A2: ∼✷A ⊃ ✷ ∼✷A
A3: ✷(A ⊃ B) ⊃ (✷A ⊃ ✷B)
R1: If ` A and ` A ⊃ B then ` B
R2: If ` A then ` ✷A

answer I don't think this is correct answer.Please guide me

  • 1
    You will have to turn this into a specific programming-realted qustion for being on-topic here. – Yunnosch Mar 26 at 18:31
  • I'm voting to close this question as off-topic because it's not about programming – Mark Dickinson Mar 28 at 17:39

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