%------------------------------------------------------------------------------
% File     : Zenon---0.7.1
% Problem  : LCL640+1.015 : TPTP v8.1.0. Released v4.0.0.
% Transfm  : none
% Format   : tptp:raw
% Command  : run_zenon %s %d

% Computer : n029.cluster.edu
% Model    : x86_64 x86_64
% CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 2.10GHz
% Memory   : 8042.1875MB
% OS       : Linux 3.10.0-693.el7.x86_64
% CPULimit : 300s
% WCLimit  : 600s
% DateTime : Sun Jul 17 16:22:54 EDT 2022

% Result   : Theorem 8.46s 8.65s
% Output   : Proof 8.46s
% Verified : 
% SZS Type : -

% Comments : 
%------------------------------------------------------------------------------
%----WARNING: Could not form TPTP format derivation
%------------------------------------------------------------------------------
%----ORIGINAL SYSTEM OUTPUT
% 0.04/0.12  % Problem  : LCL640+1.015 : TPTP v8.1.0. Released v4.0.0.
% 0.04/0.13  % Command  : run_zenon %s %d
% 0.12/0.34  % Computer : n029.cluster.edu
% 0.12/0.34  % Model    : x86_64 x86_64
% 0.12/0.34  % CPU      : Intel(R) Xeon(R) CPU E5-2620 v4 @ 2.10GHz
% 0.12/0.34  % Memory   : 8042.1875MB
% 0.12/0.34  % OS       : Linux 3.10.0-693.el7.x86_64
% 0.12/0.34  % CPULimit : 300
% 0.12/0.34  % WCLimit  : 600
% 0.12/0.34  % DateTime : Mon Jul  4 15:18:41 EDT 2022
% 0.12/0.34  % CPUTime  : 
% 8.46/8.65  (* PROOF-FOUND *)
% 8.46/8.65  % SZS status Theorem
% 8.46/8.65  (* BEGIN-PROOF *)
% 8.46/8.65  % SZS output start Proof
% 8.46/8.65  Theorem main : (~(exists X : zenon_U, (~((~(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))))))))))))))))))))))))))))))))\/((~(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(((p1 Y)\/((forall X : zenon_U, ((~(r1 Y X))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y))))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y))))))))))))/\(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))))))))))))))))))))))))))))))))\/((~(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))))))))))))))))))))))))))))\/((~(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(((p1 Y)\/((forall X : zenon_U, ((~(r1 Y X))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y))))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y))))))))))))/\(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))))))))))))))))))))))))))))\/((~(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))))))))))))))))))))))))\/((~(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(((p1 Y)\/((forall X : zenon_U, ((~(r1 Y X))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y))))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y))))))))))))/\(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))))))))))))))))))))))))\/((~(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))))))))))))))\/(~((~(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(((p1 Y)\/((forall X : zenon_U, ((~(r1 Y X))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y))))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y))))))))))))/\(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y))))))))))))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))))))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(((p1 Y)\/((forall X : zenon_U, ((~(r1 Y X))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y))))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y))))))))))))/\(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y))))))))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(((p1 Y)\/((forall X : zenon_U, ((~(r1 Y X))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y))))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y))))))))))))/\(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y))))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))))))))/\(forall Y : zenon_U, ((~(r1 X Y))\/(((p1 Y)\/((forall X : zenon_U, ((~(r1 Y X))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y))))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y))))))))))))/\(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))))))))))))))))))))))))).
% 8.46/8.65  Proof.
% 8.46/8.65  assert (zenon_L1_ : forall (zenon_TX_d : zenon_U), (~((forall Y : zenon_U, ((~(r1 zenon_TX_d Y))\/(p1 Y)))\/(~(p1 zenon_TX_d)))) -> (~(p1 zenon_TX_d)) -> False).
% 8.46/8.65  do 1 intro. intros zenon_H1 zenon_H2.
% 8.46/8.65  apply (zenon_notor_s _ _ zenon_H1). zenon_intro zenon_H5. zenon_intro zenon_H4.
% 8.46/8.65  exact (zenon_H4 zenon_H2).
% 8.46/8.65  (* end of lemma zenon_L1_ *)
% 8.46/8.65  assert (zenon_L2_ : forall (zenon_TY_m : zenon_U) (zenon_TX_n : zenon_U), (((forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(p1 Y)))\/((~(p1 zenon_TX_n))\/((forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 zenon_TX_n)\/((forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(p1 Y)))) -> (p1 zenon_TX_n) -> (forall X : zenon_U, ((~(r1 zenon_TY_m X))\/(p1 X))) -> (r1 zenon_TX_n zenon_TY_m) -> (forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))) -> False).
% 8.46/8.65  do 2 intro. intros zenon_H6 zenon_H7 zenon_H8 zenon_H9 zenon_Ha zenon_Hb.
% 8.46/8.65  apply (zenon_and_s _ _ zenon_H6). zenon_intro zenon_Hf. zenon_intro zenon_He.
% 8.46/8.65  apply (zenon_and_s _ _ zenon_He). zenon_intro zenon_H11. zenon_intro zenon_H10.
% 8.46/8.65  apply (zenon_and_s _ _ zenon_H10). zenon_intro zenon_H13. zenon_intro zenon_H12.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_Hf); [ zenon_intro zenon_H15 | zenon_intro zenon_H14 ].
% 8.46/8.65  exact (zenon_H7 zenon_H15).
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H14); [ zenon_intro zenon_H17 | zenon_intro zenon_H16 ].
% 8.46/8.65  exact (zenon_H17 zenon_H8).
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H16); [ zenon_intro zenon_H19 | zenon_intro zenon_H18 ].
% 8.46/8.65  generalize (zenon_H13 zenon_TY_m). zenon_intro zenon_H1a.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H1a); [ zenon_intro zenon_H1c | zenon_intro zenon_H1b ].
% 8.46/8.65  exact (zenon_H1c zenon_Ha).
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H1b); [ zenon_intro zenon_H1e | zenon_intro zenon_H1d ].
% 8.46/8.65  generalize (zenon_H19 zenon_TY_m). zenon_intro zenon_H1f.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H1f); [ zenon_intro zenon_H1c | zenon_intro zenon_H20 ].
% 8.46/8.65  exact (zenon_H1c zenon_Ha).
% 8.46/8.65  apply (zenon_notallex_s (fun Y : zenon_U => ((~(r1 zenon_TY_m Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y))))) zenon_H20); [ zenon_intro zenon_H21; idtac ].
% 8.46/8.65  elim zenon_H21. zenon_intro zenon_TY_bi. zenon_intro zenon_H23.
% 8.46/8.65  apply (zenon_notor_s _ _ zenon_H23). zenon_intro zenon_H25. zenon_intro zenon_H24.
% 8.46/8.65  apply (zenon_notor_s _ _ zenon_H24). zenon_intro zenon_H27. zenon_intro zenon_H26.
% 8.46/8.65  apply zenon_H25. zenon_intro zenon_H28.
% 8.46/8.65  generalize (zenon_H1e zenon_TY_bi). zenon_intro zenon_H29.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H29); [ zenon_intro zenon_H2b | zenon_intro zenon_H2a ].
% 8.46/8.65  exact (zenon_H2b zenon_H28).
% 8.46/8.65  exact (zenon_H27 zenon_H2a).
% 8.46/8.65  exact (zenon_H1d zenon_H9).
% 8.46/8.65  apply (zenon_notallex_s (fun Y : zenon_U => ((~(r1 zenon_TX_n Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))) zenon_H18); [ zenon_intro zenon_H2c; idtac ].
% 8.46/8.65  elim zenon_H2c. zenon_intro zenon_TY_bt. zenon_intro zenon_H2e.
% 8.46/8.65  apply (zenon_notor_s _ _ zenon_H2e). zenon_intro zenon_H30. zenon_intro zenon_H2f.
% 8.46/8.65  apply (zenon_notor_s _ _ zenon_H2f). zenon_intro zenon_H32. zenon_intro zenon_H31.
% 8.46/8.65  apply (zenon_notor_s _ _ zenon_H31). zenon_intro zenon_H34. zenon_intro zenon_H33.
% 8.46/8.65  apply zenon_H33. zenon_intro zenon_H35.
% 8.46/8.65  apply zenon_H30. zenon_intro zenon_H36.
% 8.46/8.65  apply (zenon_notallex_s (fun X : zenon_U => ((~(r1 zenon_TY_bt X))\/(p1 X))) zenon_H32); [ zenon_intro zenon_H37; idtac ].
% 8.46/8.65  elim zenon_H37. zenon_intro zenon_TX_d. zenon_intro zenon_H38.
% 8.46/8.65  apply (zenon_notor_s _ _ zenon_H38). zenon_intro zenon_H39. zenon_intro zenon_H2.
% 8.46/8.65  apply zenon_H39. zenon_intro zenon_H3a.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H12); [ zenon_intro zenon_H3c | zenon_intro zenon_H3b ].
% 8.46/8.65  generalize (zenon_H35 zenon_TX_d). zenon_intro zenon_H3d.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H3d); [ zenon_intro zenon_H3f | zenon_intro zenon_H3e ].
% 8.46/8.65  exact (zenon_H3f zenon_H3a).
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H3e); [ zenon_intro zenon_H40 | zenon_intro zenon_H1 ].
% 8.46/8.65  generalize (zenon_H3c zenon_TY_bt). zenon_intro zenon_H41.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H41); [ zenon_intro zenon_H43 | zenon_intro zenon_H42 ].
% 8.46/8.65  exact (zenon_H43 zenon_H36).
% 8.46/8.65  generalize (zenon_H42 zenon_TX_d). zenon_intro zenon_H44.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H44); [ zenon_intro zenon_H3f | zenon_intro zenon_H45 ].
% 8.46/8.65  exact (zenon_H3f zenon_H3a).
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H45); [ zenon_intro zenon_H47 | zenon_intro zenon_H46 ].
% 8.46/8.65  exact (zenon_H2 zenon_H47).
% 8.46/8.65  exact (zenon_H46 zenon_H40).
% 8.46/8.65  apply (zenon_L1_ zenon_TX_d); trivial.
% 8.46/8.65  exact (zenon_H3b zenon_Hb).
% 8.46/8.65  (* end of lemma zenon_L2_ *)
% 8.46/8.65  assert (zenon_L3_ : forall (zenon_TY_m : zenon_U) (zenon_TX_n : zenon_U) (zenon_TY_cw : zenon_U), (forall X : zenon_U, ((~(r1 zenon_TY_cw X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))) -> (r1 zenon_TY_cw zenon_TX_n) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(p1 Y)))) -> (p1 zenon_TX_n) -> (r1 zenon_TX_n zenon_TY_m) -> (forall X : zenon_U, ((~(r1 zenon_TY_m X))\/(p1 X))) -> (forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))) -> False).
% 8.46/8.65  do 3 intro. intros zenon_H48 zenon_H49 zenon_H7 zenon_H8 zenon_Ha zenon_H9 zenon_Hb.
% 8.46/8.65  generalize (zenon_H48 zenon_TX_n). zenon_intro zenon_H4b.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H4b); [ zenon_intro zenon_H4c | zenon_intro zenon_H6 ].
% 8.46/8.65  exact (zenon_H4c zenon_H49).
% 8.46/8.65  apply (zenon_L2_ zenon_TY_m zenon_TX_n); trivial.
% 8.46/8.65  (* end of lemma zenon_L3_ *)
% 8.46/8.65  assert (zenon_L4_ : forall (zenon_TY_m : zenon_U) (zenon_TX_n : zenon_U) (zenon_TY_cw : zenon_U) (zenon_TX_db : zenon_U), (forall Y : zenon_U, ((~(r1 zenon_TX_db Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))) -> (r1 zenon_TX_db zenon_TY_cw) -> (r1 zenon_TY_cw zenon_TX_n) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(p1 Y)))) -> (p1 zenon_TX_n) -> (r1 zenon_TX_n zenon_TY_m) -> (forall X : zenon_U, ((~(r1 zenon_TY_m X))\/(p1 X))) -> (forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))) -> False).
% 8.46/8.65  do 4 intro. intros zenon_H4d zenon_H4e zenon_H49 zenon_H7 zenon_H8 zenon_Ha zenon_H9 zenon_Hb.
% 8.46/8.65  generalize (zenon_H4d zenon_TY_cw). zenon_intro zenon_H50.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H50); [ zenon_intro zenon_H51 | zenon_intro zenon_H48 ].
% 8.46/8.65  exact (zenon_H51 zenon_H4e).
% 8.46/8.65  apply (zenon_L3_ zenon_TY_m zenon_TX_n zenon_TY_cw); trivial.
% 8.46/8.65  (* end of lemma zenon_L4_ *)
% 8.46/8.65  assert (zenon_L5_ : forall (zenon_TY_m : zenon_U) (zenon_TX_n : zenon_U) (zenon_TY_cw : zenon_U) (zenon_TX_db : zenon_U) (zenon_TY_dg : zenon_U), (forall X : zenon_U, ((~(r1 zenon_TY_dg X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))) -> (r1 zenon_TY_dg zenon_TX_db) -> (r1 zenon_TX_db zenon_TY_cw) -> (r1 zenon_TY_cw zenon_TX_n) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(p1 Y)))) -> (p1 zenon_TX_n) -> (r1 zenon_TX_n zenon_TY_m) -> (forall X : zenon_U, ((~(r1 zenon_TY_m X))\/(p1 X))) -> (forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))) -> False).
% 8.46/8.65  do 5 intro. intros zenon_H52 zenon_H53 zenon_H4e zenon_H49 zenon_H7 zenon_H8 zenon_Ha zenon_H9 zenon_Hb.
% 8.46/8.65  generalize (zenon_H52 zenon_TX_db). zenon_intro zenon_H55.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H55); [ zenon_intro zenon_H56 | zenon_intro zenon_H4d ].
% 8.46/8.65  exact (zenon_H56 zenon_H53).
% 8.46/8.65  apply (zenon_L4_ zenon_TY_m zenon_TX_n zenon_TY_cw zenon_TX_db); trivial.
% 8.46/8.65  (* end of lemma zenon_L5_ *)
% 8.46/8.65  assert (zenon_L6_ : forall (zenon_TY_m : zenon_U) (zenon_TX_n : zenon_U) (zenon_TY_cw : zenon_U) (zenon_TX_db : zenon_U) (zenon_TY_dg : zenon_U) (zenon_TX_dl : zenon_U), (forall Y : zenon_U, ((~(r1 zenon_TX_dl Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))))) -> (r1 zenon_TX_dl zenon_TY_dg) -> (r1 zenon_TY_dg zenon_TX_db) -> (r1 zenon_TX_db zenon_TY_cw) -> (r1 zenon_TY_cw zenon_TX_n) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(p1 Y)))) -> (p1 zenon_TX_n) -> (r1 zenon_TX_n zenon_TY_m) -> (forall X : zenon_U, ((~(r1 zenon_TY_m X))\/(p1 X))) -> (forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))) -> False).
% 8.46/8.65  do 6 intro. intros zenon_H57 zenon_H58 zenon_H53 zenon_H4e zenon_H49 zenon_H7 zenon_H8 zenon_Ha zenon_H9 zenon_Hb.
% 8.46/8.65  generalize (zenon_H57 zenon_TY_dg). zenon_intro zenon_H5a.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H5a); [ zenon_intro zenon_H5b | zenon_intro zenon_H52 ].
% 8.46/8.65  exact (zenon_H5b zenon_H58).
% 8.46/8.65  apply (zenon_L5_ zenon_TY_m zenon_TX_n zenon_TY_cw zenon_TX_db zenon_TY_dg); trivial.
% 8.46/8.65  (* end of lemma zenon_L6_ *)
% 8.46/8.65  assert (zenon_L7_ : forall (zenon_TY_m : zenon_U) (zenon_TX_n : zenon_U) (zenon_TY_cw : zenon_U) (zenon_TX_db : zenon_U) (zenon_TY_dg : zenon_U) (zenon_TX_dl : zenon_U) (zenon_TY_dq : zenon_U), (forall X : zenon_U, ((~(r1 zenon_TY_dq X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))))))) -> (r1 zenon_TY_dq zenon_TX_dl) -> (r1 zenon_TX_dl zenon_TY_dg) -> (r1 zenon_TY_dg zenon_TX_db) -> (r1 zenon_TX_db zenon_TY_cw) -> (r1 zenon_TY_cw zenon_TX_n) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(p1 Y)))) -> (p1 zenon_TX_n) -> (r1 zenon_TX_n zenon_TY_m) -> (forall X : zenon_U, ((~(r1 zenon_TY_m X))\/(p1 X))) -> (forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))) -> False).
% 8.46/8.65  do 7 intro. intros zenon_H5c zenon_H5d zenon_H58 zenon_H53 zenon_H4e zenon_H49 zenon_H7 zenon_H8 zenon_Ha zenon_H9 zenon_Hb.
% 8.46/8.65  generalize (zenon_H5c zenon_TX_dl). zenon_intro zenon_H5f.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H5f); [ zenon_intro zenon_H60 | zenon_intro zenon_H57 ].
% 8.46/8.65  exact (zenon_H60 zenon_H5d).
% 8.46/8.65  apply (zenon_L6_ zenon_TY_m zenon_TX_n zenon_TY_cw zenon_TX_db zenon_TY_dg zenon_TX_dl); trivial.
% 8.46/8.65  (* end of lemma zenon_L7_ *)
% 8.46/8.65  assert (zenon_L8_ : forall (zenon_TY_m : zenon_U) (zenon_TX_n : zenon_U) (zenon_TY_cw : zenon_U) (zenon_TX_db : zenon_U) (zenon_TY_dg : zenon_U) (zenon_TX_dl : zenon_U) (zenon_TY_dq : zenon_U) (zenon_TX_dv : zenon_U), (forall Y : zenon_U, ((~(r1 zenon_TX_dv Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))))))))) -> (r1 zenon_TX_dv zenon_TY_dq) -> (r1 zenon_TY_dq zenon_TX_dl) -> (r1 zenon_TX_dl zenon_TY_dg) -> (r1 zenon_TY_dg zenon_TX_db) -> (r1 zenon_TX_db zenon_TY_cw) -> (r1 zenon_TY_cw zenon_TX_n) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(p1 Y)))) -> (p1 zenon_TX_n) -> (r1 zenon_TX_n zenon_TY_m) -> (forall X : zenon_U, ((~(r1 zenon_TY_m X))\/(p1 X))) -> (forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))) -> False).
% 8.46/8.65  do 8 intro. intros zenon_H61 zenon_H62 zenon_H5d zenon_H58 zenon_H53 zenon_H4e zenon_H49 zenon_H7 zenon_H8 zenon_Ha zenon_H9 zenon_Hb.
% 8.46/8.65  generalize (zenon_H61 zenon_TY_dq). zenon_intro zenon_H64.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H64); [ zenon_intro zenon_H65 | zenon_intro zenon_H5c ].
% 8.46/8.65  exact (zenon_H65 zenon_H62).
% 8.46/8.65  apply (zenon_L7_ zenon_TY_m zenon_TX_n zenon_TY_cw zenon_TX_db zenon_TY_dg zenon_TX_dl zenon_TY_dq); trivial.
% 8.46/8.65  (* end of lemma zenon_L8_ *)
% 8.46/8.65  assert (zenon_L9_ : forall (zenon_TX_ec : zenon_U) (zenon_TY_ed : zenon_U) (zenon_TX_dv : zenon_U) (zenon_TY_dq : zenon_U) (zenon_TX_dl : zenon_U) (zenon_TY_dg : zenon_U) (zenon_TX_db : zenon_U) (zenon_TY_cw : zenon_U) (zenon_TY_m : zenon_U) (zenon_TX_n : zenon_U), ((p1 zenon_TX_n)\/((forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))) -> (forall X : zenon_U, ((~(r1 zenon_TY_m X))\/(p1 X))) -> (r1 zenon_TX_n zenon_TY_m) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(p1 Y)))) -> (r1 zenon_TY_cw zenon_TX_n) -> (r1 zenon_TX_db zenon_TY_cw) -> (r1 zenon_TY_dg zenon_TX_db) -> (r1 zenon_TX_dl zenon_TY_dg) -> (r1 zenon_TY_dq zenon_TX_dl) -> (r1 zenon_TX_dv zenon_TY_dq) -> (r1 zenon_TY_ed zenon_TX_dv) -> (r1 zenon_TX_ec zenon_TY_ed) -> (forall Y : zenon_U, ((~(r1 zenon_TX_ec Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))))))))))))) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))) -> (forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))) -> False).
% 8.46/8.65  do 10 intro. intros zenon_H11 zenon_H9 zenon_Ha zenon_H7 zenon_H49 zenon_H4e zenon_H53 zenon_H58 zenon_H5d zenon_H62 zenon_H66 zenon_H67 zenon_H68 zenon_H69 zenon_Hb.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H11); [ zenon_intro zenon_H8 | zenon_intro zenon_H6c ].
% 8.46/8.65  generalize (zenon_H68 zenon_TY_ed). zenon_intro zenon_H6d.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H6d); [ zenon_intro zenon_H6f | zenon_intro zenon_H6e ].
% 8.46/8.65  exact (zenon_H6f zenon_H67).
% 8.46/8.65  generalize (zenon_H6e zenon_TX_dv). zenon_intro zenon_H70.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H70); [ zenon_intro zenon_H71 | zenon_intro zenon_H61 ].
% 8.46/8.65  exact (zenon_H71 zenon_H66).
% 8.46/8.65  apply (zenon_L8_ zenon_TY_m zenon_TX_n zenon_TY_cw zenon_TX_db zenon_TY_dg zenon_TX_dl zenon_TY_dq zenon_TX_dv); trivial.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H6c); [ zenon_intro zenon_H72 | zenon_intro zenon_H3b ].
% 8.46/8.65  exact (zenon_H69 zenon_H72).
% 8.46/8.65  exact (zenon_H3b zenon_Hb).
% 8.46/8.65  (* end of lemma zenon_L9_ *)
% 8.46/8.65  assert (zenon_L10_ : forall (zenon_TX_ec : zenon_U) (zenon_TY_ed : zenon_U) (zenon_TX_dv : zenon_U) (zenon_TY_dq : zenon_U) (zenon_TX_dl : zenon_U) (zenon_TY_dg : zenon_U) (zenon_TX_db : zenon_U) (zenon_TY_cw : zenon_U) (zenon_TY_m : zenon_U) (zenon_TX_n : zenon_U), (((forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(p1 Y)))\/((~(p1 zenon_TX_n))\/((forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 zenon_TX_n)\/((forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))) -> (forall X : zenon_U, ((~(r1 zenon_TY_m X))\/(p1 X))) -> (r1 zenon_TX_n zenon_TY_m) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(p1 Y)))) -> (r1 zenon_TY_cw zenon_TX_n) -> (r1 zenon_TX_db zenon_TY_cw) -> (r1 zenon_TY_dg zenon_TX_db) -> (r1 zenon_TX_dl zenon_TY_dg) -> (r1 zenon_TY_dq zenon_TX_dl) -> (r1 zenon_TX_dv zenon_TY_dq) -> (r1 zenon_TY_ed zenon_TX_dv) -> (r1 zenon_TX_ec zenon_TY_ed) -> (forall Y : zenon_U, ((~(r1 zenon_TX_ec Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))))))))))))) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))) -> (forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))) -> False).
% 8.46/8.65  do 10 intro. intros zenon_H6 zenon_H9 zenon_Ha zenon_H7 zenon_H49 zenon_H4e zenon_H53 zenon_H58 zenon_H5d zenon_H62 zenon_H66 zenon_H67 zenon_H68 zenon_H69 zenon_Hb.
% 8.46/8.65  apply (zenon_and_s _ _ zenon_H6). zenon_intro zenon_Hf. zenon_intro zenon_He.
% 8.46/8.65  apply (zenon_and_s _ _ zenon_He). zenon_intro zenon_H11. zenon_intro zenon_H10.
% 8.46/8.65  apply (zenon_L9_ zenon_TX_ec zenon_TY_ed zenon_TX_dv zenon_TY_dq zenon_TX_dl zenon_TY_dg zenon_TX_db zenon_TY_cw zenon_TY_m zenon_TX_n); trivial.
% 8.46/8.65  (* end of lemma zenon_L10_ *)
% 8.46/8.65  assert (zenon_L11_ : forall (zenon_TY_m : zenon_U) (zenon_TX_db : zenon_U) (zenon_TY_dg : zenon_U) (zenon_TX_dl : zenon_U) (zenon_TY_dq : zenon_U) (zenon_TX_dv : zenon_U) (zenon_TY_ed : zenon_U) (zenon_TX_ec : zenon_U) (zenon_TX_n : zenon_U) (zenon_TY_cw : zenon_U), (forall X : zenon_U, ((~(r1 zenon_TY_cw X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))) -> (r1 zenon_TY_cw zenon_TX_n) -> (forall Y : zenon_U, ((~(r1 zenon_TX_ec Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))))))))))))) -> (r1 zenon_TX_ec zenon_TY_ed) -> (r1 zenon_TY_ed zenon_TX_dv) -> (r1 zenon_TX_dv zenon_TY_dq) -> (r1 zenon_TY_dq zenon_TX_dl) -> (r1 zenon_TX_dl zenon_TY_dg) -> (r1 zenon_TY_dg zenon_TX_db) -> (r1 zenon_TX_db zenon_TY_cw) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(p1 Y)))) -> (r1 zenon_TX_n zenon_TY_m) -> (forall X : zenon_U, ((~(r1 zenon_TY_m X))\/(p1 X))) -> (forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))) -> False).
% 8.46/8.65  do 10 intro. intros zenon_H48 zenon_H49 zenon_H68 zenon_H67 zenon_H66 zenon_H62 zenon_H5d zenon_H58 zenon_H53 zenon_H4e zenon_H7 zenon_Ha zenon_H9 zenon_Hb zenon_H69.
% 8.46/8.65  generalize (zenon_H48 zenon_TX_n). zenon_intro zenon_H4b.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H4b); [ zenon_intro zenon_H4c | zenon_intro zenon_H6 ].
% 8.46/8.65  exact (zenon_H4c zenon_H49).
% 8.46/8.65  apply (zenon_L10_ zenon_TX_ec zenon_TY_ed zenon_TX_dv zenon_TY_dq zenon_TX_dl zenon_TY_dg zenon_TX_db zenon_TY_cw zenon_TY_m zenon_TX_n); trivial.
% 8.46/8.65  (* end of lemma zenon_L11_ *)
% 8.46/8.65  assert (zenon_L12_ : forall (zenon_TY_m : zenon_U) (zenon_TY_dg : zenon_U) (zenon_TX_dl : zenon_U) (zenon_TY_dq : zenon_U) (zenon_TX_dv : zenon_U) (zenon_TY_ed : zenon_U) (zenon_TX_ec : zenon_U) (zenon_TX_n : zenon_U) (zenon_TY_cw : zenon_U) (zenon_TX_db : zenon_U), (forall Y : zenon_U, ((~(r1 zenon_TX_db Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))) -> (r1 zenon_TX_db zenon_TY_cw) -> (r1 zenon_TY_cw zenon_TX_n) -> (forall Y : zenon_U, ((~(r1 zenon_TX_ec Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))))))))))))) -> (r1 zenon_TX_ec zenon_TY_ed) -> (r1 zenon_TY_ed zenon_TX_dv) -> (r1 zenon_TX_dv zenon_TY_dq) -> (r1 zenon_TY_dq zenon_TX_dl) -> (r1 zenon_TX_dl zenon_TY_dg) -> (r1 zenon_TY_dg zenon_TX_db) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(p1 Y)))) -> (r1 zenon_TX_n zenon_TY_m) -> (forall X : zenon_U, ((~(r1 zenon_TY_m X))\/(p1 X))) -> (forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))) -> False).
% 8.46/8.65  do 10 intro. intros zenon_H4d zenon_H4e zenon_H49 zenon_H68 zenon_H67 zenon_H66 zenon_H62 zenon_H5d zenon_H58 zenon_H53 zenon_H7 zenon_Ha zenon_H9 zenon_Hb zenon_H69.
% 8.46/8.65  generalize (zenon_H4d zenon_TY_cw). zenon_intro zenon_H50.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H50); [ zenon_intro zenon_H51 | zenon_intro zenon_H48 ].
% 8.46/8.65  exact (zenon_H51 zenon_H4e).
% 8.46/8.65  apply (zenon_L11_ zenon_TY_m zenon_TX_db zenon_TY_dg zenon_TX_dl zenon_TY_dq zenon_TX_dv zenon_TY_ed zenon_TX_ec zenon_TX_n zenon_TY_cw); trivial.
% 8.46/8.65  (* end of lemma zenon_L12_ *)
% 8.46/8.65  assert (zenon_L13_ : forall (zenon_TY_m : zenon_U) (zenon_TX_dl : zenon_U) (zenon_TY_dq : zenon_U) (zenon_TX_dv : zenon_U) (zenon_TY_ed : zenon_U) (zenon_TX_ec : zenon_U) (zenon_TX_n : zenon_U) (zenon_TY_cw : zenon_U) (zenon_TX_db : zenon_U) (zenon_TY_dg : zenon_U), (forall X : zenon_U, ((~(r1 zenon_TY_dg X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))) -> (r1 zenon_TY_dg zenon_TX_db) -> (r1 zenon_TX_db zenon_TY_cw) -> (r1 zenon_TY_cw zenon_TX_n) -> (forall Y : zenon_U, ((~(r1 zenon_TX_ec Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))))))))))))) -> (r1 zenon_TX_ec zenon_TY_ed) -> (r1 zenon_TY_ed zenon_TX_dv) -> (r1 zenon_TX_dv zenon_TY_dq) -> (r1 zenon_TY_dq zenon_TX_dl) -> (r1 zenon_TX_dl zenon_TY_dg) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(p1 Y)))) -> (r1 zenon_TX_n zenon_TY_m) -> (forall X : zenon_U, ((~(r1 zenon_TY_m X))\/(p1 X))) -> (forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))) -> False).
% 8.46/8.65  do 10 intro. intros zenon_H52 zenon_H53 zenon_H4e zenon_H49 zenon_H68 zenon_H67 zenon_H66 zenon_H62 zenon_H5d zenon_H58 zenon_H7 zenon_Ha zenon_H9 zenon_Hb zenon_H69.
% 8.46/8.65  generalize (zenon_H52 zenon_TX_db). zenon_intro zenon_H55.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H55); [ zenon_intro zenon_H56 | zenon_intro zenon_H4d ].
% 8.46/8.65  exact (zenon_H56 zenon_H53).
% 8.46/8.65  apply (zenon_L12_ zenon_TY_m zenon_TY_dg zenon_TX_dl zenon_TY_dq zenon_TX_dv zenon_TY_ed zenon_TX_ec zenon_TX_n zenon_TY_cw zenon_TX_db); trivial.
% 8.46/8.65  (* end of lemma zenon_L13_ *)
% 8.46/8.65  assert (zenon_L14_ : forall (zenon_TY_m : zenon_U) (zenon_TY_dq : zenon_U) (zenon_TX_dv : zenon_U) (zenon_TY_ed : zenon_U) (zenon_TX_ec : zenon_U) (zenon_TX_n : zenon_U) (zenon_TY_cw : zenon_U) (zenon_TX_db : zenon_U) (zenon_TY_dg : zenon_U) (zenon_TX_dl : zenon_U), (forall Y : zenon_U, ((~(r1 zenon_TX_dl Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))))) -> (r1 zenon_TX_dl zenon_TY_dg) -> (r1 zenon_TY_dg zenon_TX_db) -> (r1 zenon_TX_db zenon_TY_cw) -> (r1 zenon_TY_cw zenon_TX_n) -> (forall Y : zenon_U, ((~(r1 zenon_TX_ec Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))))))))))))) -> (r1 zenon_TX_ec zenon_TY_ed) -> (r1 zenon_TY_ed zenon_TX_dv) -> (r1 zenon_TX_dv zenon_TY_dq) -> (r1 zenon_TY_dq zenon_TX_dl) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(p1 Y)))) -> (r1 zenon_TX_n zenon_TY_m) -> (forall X : zenon_U, ((~(r1 zenon_TY_m X))\/(p1 X))) -> (forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))) -> False).
% 8.46/8.65  do 10 intro. intros zenon_H57 zenon_H58 zenon_H53 zenon_H4e zenon_H49 zenon_H68 zenon_H67 zenon_H66 zenon_H62 zenon_H5d zenon_H7 zenon_Ha zenon_H9 zenon_Hb zenon_H69.
% 8.46/8.65  generalize (zenon_H57 zenon_TY_dg). zenon_intro zenon_H5a.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H5a); [ zenon_intro zenon_H5b | zenon_intro zenon_H52 ].
% 8.46/8.65  exact (zenon_H5b zenon_H58).
% 8.46/8.65  apply (zenon_L13_ zenon_TY_m zenon_TX_dl zenon_TY_dq zenon_TX_dv zenon_TY_ed zenon_TX_ec zenon_TX_n zenon_TY_cw zenon_TX_db zenon_TY_dg); trivial.
% 8.46/8.65  (* end of lemma zenon_L14_ *)
% 8.46/8.65  assert (zenon_L15_ : forall (zenon_TY_m : zenon_U) (zenon_TX_dv : zenon_U) (zenon_TY_ed : zenon_U) (zenon_TX_ec : zenon_U) (zenon_TX_n : zenon_U) (zenon_TY_cw : zenon_U) (zenon_TX_db : zenon_U) (zenon_TY_dg : zenon_U) (zenon_TX_dl : zenon_U) (zenon_TY_dq : zenon_U), (forall X : zenon_U, ((~(r1 zenon_TY_dq X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))))))) -> (r1 zenon_TY_dq zenon_TX_dl) -> (r1 zenon_TX_dl zenon_TY_dg) -> (r1 zenon_TY_dg zenon_TX_db) -> (r1 zenon_TX_db zenon_TY_cw) -> (r1 zenon_TY_cw zenon_TX_n) -> (forall Y : zenon_U, ((~(r1 zenon_TX_ec Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))))))))))))) -> (r1 zenon_TX_ec zenon_TY_ed) -> (r1 zenon_TY_ed zenon_TX_dv) -> (r1 zenon_TX_dv zenon_TY_dq) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(p1 Y)))) -> (r1 zenon_TX_n zenon_TY_m) -> (forall X : zenon_U, ((~(r1 zenon_TY_m X))\/(p1 X))) -> (forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))) -> False).
% 8.46/8.65  do 10 intro. intros zenon_H5c zenon_H5d zenon_H58 zenon_H53 zenon_H4e zenon_H49 zenon_H68 zenon_H67 zenon_H66 zenon_H62 zenon_H7 zenon_Ha zenon_H9 zenon_Hb zenon_H69.
% 8.46/8.65  generalize (zenon_H5c zenon_TX_dl). zenon_intro zenon_H5f.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H5f); [ zenon_intro zenon_H60 | zenon_intro zenon_H57 ].
% 8.46/8.65  exact (zenon_H60 zenon_H5d).
% 8.46/8.65  apply (zenon_L14_ zenon_TY_m zenon_TY_dq zenon_TX_dv zenon_TY_ed zenon_TX_ec zenon_TX_n zenon_TY_cw zenon_TX_db zenon_TY_dg zenon_TX_dl); trivial.
% 8.46/8.65  (* end of lemma zenon_L15_ *)
% 8.46/8.65  assert (zenon_L16_ : forall (zenon_TY_m : zenon_U) (zenon_TY_ed : zenon_U) (zenon_TX_ec : zenon_U) (zenon_TX_n : zenon_U) (zenon_TY_cw : zenon_U) (zenon_TX_db : zenon_U) (zenon_TY_dg : zenon_U) (zenon_TX_dl : zenon_U) (zenon_TY_dq : zenon_U) (zenon_TX_dv : zenon_U), (forall Y : zenon_U, ((~(r1 zenon_TX_dv Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))))))))) -> (r1 zenon_TX_dv zenon_TY_dq) -> (r1 zenon_TY_dq zenon_TX_dl) -> (r1 zenon_TX_dl zenon_TY_dg) -> (r1 zenon_TY_dg zenon_TX_db) -> (r1 zenon_TX_db zenon_TY_cw) -> (r1 zenon_TY_cw zenon_TX_n) -> (forall Y : zenon_U, ((~(r1 zenon_TX_ec Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((~(p1 X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/((~(p1 Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))\/(~((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))))))/\(((p1 X)\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))))/\((forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((p1 X)\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))\/(~(p1 Y)))))))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))))))))))))) -> (r1 zenon_TX_ec zenon_TY_ed) -> (r1 zenon_TY_ed zenon_TX_dv) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(p1 Y)))) -> (r1 zenon_TX_n zenon_TY_m) -> (forall X : zenon_U, ((~(r1 zenon_TY_m X))\/(p1 X))) -> (forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X))))))))) -> (~(forall Y : zenon_U, ((~(r1 zenon_TX_n Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))) -> False).
% 8.46/8.65  do 10 intro. intros zenon_H61 zenon_H62 zenon_H5d zenon_H58 zenon_H53 zenon_H4e zenon_H49 zenon_H68 zenon_H67 zenon_H66 zenon_H7 zenon_Ha zenon_H9 zenon_Hb zenon_H69.
% 8.46/8.65  generalize (zenon_H61 zenon_TY_dq). zenon_intro zenon_H64.
% 8.46/8.65  apply (zenon_or_s _ _ zenon_H64); [ zenon_intro zenon_H65 | zenon_intro zenon_H5c ].
% 8.46/8.65  exact (zenon_H65 zenon_H62).
% 8.46/8.65  apply (zenon_L15_ zenon_TY_m zenon_TX_dv zenon_TY_ed zenon_TX_ec zenon_TX_n zenon_TY_cw zenon_TX_db zenon_TY_dg zenon_TX_dl zenon_TY_dq); trivial.
% 8.46/8.65  (* end of lemma zenon_L16_ *)
% 8.46/8.65  apply NNPP. intro zenon_G.
% 8.46/8.65  apply zenon_G. zenon_intro zenon_H73.
% 8.46/8.65  elim zenon_H73. zenon_intro zenon_TX_ec. zenon_intro zenon_H74.
% 8.46/8.65  apply (zenon_notor_s _ _ zenon_H74). zenon_intro zenon_H76. zenon_intro zenon_H75.
% 8.46/8.65  apply (zenon_notor_s _ _ zenon_H75). zenon_intro zenon_H78. zenon_intro zenon_H77.
% 8.46/8.65  apply (zenon_notor_s _ _ zenon_H77). zenon_intro zenon_H7a. zenon_intro zenon_H79.
% 8.46/8.65  apply (zenon_notor_s _ _ zenon_H79). zenon_intro zenon_H7c. zenon_intro zenon_H7b.
% 8.46/8.65  apply (zenon_notor_s _ _ zenon_H7b). zenon_intro zenon_H7e. zenon_intro zenon_H7d.
% 8.46/8.65  apply (zenon_notor_s _ _ zenon_H7d). zenon_intro zenon_H80. zenon_intro zenon_H7f.
% 8.46/8.65  apply (zenon_notor_s _ _ zenon_H7f). zenon_intro zenon_H82. zenon_intro zenon_H81.
% 8.46/8.65  apply zenon_H81. zenon_intro zenon_H83.
% 8.46/8.65  apply (zenon_and_s _ _ zenon_H83). zenon_intro zenon_H85. zenon_intro zenon_H84.
% 8.46/8.65  apply zenon_H82. zenon_intro zenon_H68.
% 8.46/8.65  apply (zenon_notallex_s (fun Y : zenon_U => ((~(r1 zenon_TX_ec Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))))))))))) zenon_H85); [ zenon_intro zenon_H86; idtac ].
% 8.46/8.65  elim zenon_H86. zenon_intro zenon_TY_ed. zenon_intro zenon_H87.
% 8.46/8.65  apply (zenon_notor_s _ _ zenon_H87). zenon_intro zenon_H89. zenon_intro zenon_H88.
% 8.46/8.65  apply zenon_H89. zenon_intro zenon_H67.
% 8.46/8.65  apply (zenon_notallex_s (fun X : zenon_U => ((~(r1 zenon_TY_ed X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))))))))) zenon_H88); [ zenon_intro zenon_H8a; idtac ].
% 8.46/8.65  elim zenon_H8a. zenon_intro zenon_TX_dv. zenon_intro zenon_H8b.
% 8.46/8.65  apply (zenon_notor_s _ _ zenon_H8b). zenon_intro zenon_H8d. zenon_intro zenon_H8c.
% 8.46/8.65  apply zenon_H8d. zenon_intro zenon_H66.
% 8.46/8.65  apply (zenon_notallex_s (fun Y : zenon_U => ((~(r1 zenon_TX_dv Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))))))) zenon_H8c); [ zenon_intro zenon_H8e; idtac ].
% 8.46/8.65  elim zenon_H8e. zenon_intro zenon_TY_dq. zenon_intro zenon_H8f.
% 8.46/8.65  apply (zenon_notor_s _ _ zenon_H8f). zenon_intro zenon_H91. zenon_intro zenon_H90.
% 8.46/8.65  apply zenon_H91. zenon_intro zenon_H62.
% 8.46/8.65  apply (zenon_notallex_s (fun X : zenon_U => ((~(r1 zenon_TY_dq X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))))) zenon_H90); [ zenon_intro zenon_H92; idtac ].
% 8.46/8.65  elim zenon_H92. zenon_intro zenon_TX_dl. zenon_intro zenon_H93.
% 8.46/8.65  apply (zenon_notor_s _ _ zenon_H93). zenon_intro zenon_H95. zenon_intro zenon_H94.
% 8.46/8.66  apply zenon_H95. zenon_intro zenon_H5d.
% 8.46/8.66  apply (zenon_notallex_s (fun Y : zenon_U => ((~(r1 zenon_TX_dl Y))\/(forall X : zenon_U, ((~(r1 Y X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))))) zenon_H94); [ zenon_intro zenon_H96; idtac ].
% 8.46/8.66  elim zenon_H96. zenon_intro zenon_TY_dg. zenon_intro zenon_H97.
% 8.46/8.66  apply (zenon_notor_s _ _ zenon_H97). zenon_intro zenon_H99. zenon_intro zenon_H98.
% 8.46/8.66  apply zenon_H99. zenon_intro zenon_H58.
% 8.46/8.66  apply (zenon_notallex_s (fun X : zenon_U => ((~(r1 zenon_TY_dg X))\/(forall Y : zenon_U, ((~(r1 X Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))))) zenon_H98); [ zenon_intro zenon_H9a; idtac ].
% 8.46/8.66  elim zenon_H9a. zenon_intro zenon_TX_db. zenon_intro zenon_H9b.
% 8.46/8.66  apply (zenon_notor_s _ _ zenon_H9b). zenon_intro zenon_H9d. zenon_intro zenon_H9c.
% 8.46/8.66  apply zenon_H9d. zenon_intro zenon_H53.
% 8.46/8.66  apply (zenon_notallex_s (fun Y : zenon_U => ((~(r1 zenon_TX_db Y))\/(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))))) zenon_H9c); [ zenon_intro zenon_H9e; idtac ].
% 8.46/8.66  elim zenon_H9e. zenon_intro zenon_TY_cw. zenon_intro zenon_H9f.
% 8.46/8.66  apply (zenon_notor_s _ _ zenon_H9f). zenon_intro zenon_Ha1. zenon_intro zenon_Ha0.
% 8.46/8.66  apply zenon_Ha1. zenon_intro zenon_H4e.
% 8.46/8.66  apply (zenon_notallex_s (fun X : zenon_U => ((~(r1 zenon_TY_cw X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/((forall Y : zenon_U, ((~(r1 X Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X))))))\/(~(forall Y : zenon_U, ((~(r1 X Y))\/((p1 Y)\/(~(forall X : zenon_U, ((~(r1 Y X))\/((forall Y : zenon_U, ((~(r1 X Y))\/(p1 Y)))\/(~(p1 X)))))))))))))) zenon_Ha0); [ zenon_intro zenon_Ha2; idtac ].
% 8.46/8.66  elim zenon_Ha2. zenon_intro zenon_TX_n. zenon_intro zenon_Ha3.
% 8.46/8.66  apply (zenon_notor_s _ _ zenon_Ha3). zenon_intro zenon_Ha5. zenon_intro zenon_Ha4.
% 8.46/8.66  apply (zenon_notor_s _ _ zenon_Ha4). zenon_intro zenon_H7. zenon_intro zenon_Ha6.
% 8.46/8.66  apply (zenon_notor_s _ _ zenon_Ha6). zenon_intro zenon_H69. zenon_intro zenon_Ha7.
% 8.46/8.66  apply zenon_Ha7. zenon_intro zenon_Hb.
% 8.46/8.66  apply zenon_Ha5. zenon_intro zenon_H49.
% 8.46/8.66  apply (zenon_notallex_s (fun Y : zenon_U => ((~(r1 zenon_TX_n Y))\/(~(forall X : zenon_U, ((~(r1 Y X))\/(p1 X)))))) zenon_H69); [ zenon_intro zenon_Ha8; idtac ].
% 8.46/8.66  elim zenon_Ha8. zenon_intro zenon_TY_m. zenon_intro zenon_Ha9.
% 8.46/8.66  apply (zenon_notor_s _ _ zenon_Ha9). zenon_intro zenon_Hab. zenon_intro zenon_Haa.
% 8.46/8.66  apply zenon_Hab. zenon_intro zenon_Ha.
% 8.46/8.66  apply zenon_Haa. zenon_intro zenon_H9.
% 8.46/8.66  generalize (zenon_H68 zenon_TY_ed). zenon_intro zenon_H6d.
% 8.46/8.66  apply (zenon_or_s _ _ zenon_H6d); [ zenon_intro zenon_H6f | zenon_intro zenon_H6e ].
% 8.46/8.66  exact (zenon_H6f zenon_H67).
% 8.46/8.66  generalize (zenon_H6e zenon_TX_dv). zenon_intro zenon_H70.
% 8.46/8.66  apply (zenon_or_s _ _ zenon_H70); [ zenon_intro zenon_H71 | zenon_intro zenon_H61 ].
% 8.46/8.66  exact (zenon_H71 zenon_H66).
% 8.46/8.66  apply (zenon_L16_ zenon_TY_m zenon_TY_ed zenon_TX_ec zenon_TX_n zenon_TY_cw zenon_TX_db zenon_TY_dg zenon_TX_dl zenon_TY_dq zenon_TX_dv); trivial.
% 8.46/8.66  Qed.
% 8.46/8.66  % SZS output end Proof
% 8.46/8.66  (* END-PROOF *)
% 8.46/8.66  nodes searched: 299140
% 8.46/8.66  max branch formulas: 22249
% 8.46/8.66  proof nodes created: 12412
% 8.46/8.66  formulas created: 1345787
% 8.46/8.66  
%------------------------------------------------------------------------------