Proofgold Proposition

(∀ x0 x1 x2 . equip (setsum (setsum (setprod (Power (Power 0)) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setprod (setexp x1 (binrep (Power (Power 0)) 0)) (setexp x2 (binrep (Power (Power 0)) 0))))) (setsum (setprod (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) 0) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setprod (setexp x1 (binrep (Power (Power 0)) 0)) (setexp x2 (Power (Power 0)))))) (setsum (setprod (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power 0)) 0) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setprod (setexp x1 (binrep (Power (Power 0)) 0)) x2))) (setsum (setprod (binrep (Power (Power (Power 0))) (Power 0)) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setexp x1 (binrep (Power (Power 0)) 0)))) (setsum (setprod (binrep (binrep (Power (Power (Power 0))) (Power 0)) 0) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setprod (setexp x1 (Power (Power 0))) (setexp x2 (binrep (Power (Power 0)) 0))))) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) (Power 0)) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setprod (setexp x1 (Power (Power 0))) (setexp x2 (Power (Power 0)))))) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) 0) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setprod (setexp x1 (Power (Power 0))) x2))) (setsum (setprod (binrep (Power (Power 0)) 0) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setexp x1 (Power (Power 0))))) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) (Power 0)) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setprod x1 (setexp x2 (binrep (Power (Power 0)) 0))))) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) 0) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setprod x1 (setexp x2 (Power (Power 0)))))) (setsum (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setprod x1 x2)) (setsum (setprod (binrep (Power (Power 0)) 0) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) x1)) (setsum (setprod (Power (binrep (Power (Power 0)) 0)) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setexp x2 (Power (Power 0))))) (setsum (setprod (binrep (binrep (Power (Power (Power 0))) (Power 0)) 0) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) x2)) (setsum (setprod (binrep (Power (Power (Power 0))) (Power 0)) (setexp x0 (binrep (Power (Power 0)) 0))) (setsum (setprod (binrep (Power (Power (Power 0))) (Power 0)) (setprod (setexp x0 (Power (Power 0))) (setprod (setexp x1 (binrep (Power (Power 0)) 0)) (setexp x2 (binrep (Power (Power 0)) 0))))) (setsum (setprod (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) (Power 0)) (setprod (setexp x0 (Power (Power 0))) (setprod (setexp x1 (binrep (Power (Power 0)) 0)) (setexp x2 (Power (Power 0)))))) (setsum (setprod (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) 0) (setprod (setexp x0 (Power (Power 0))) (setprod (setexp x1 (binrep (Power (Power 0)) 0)) x2))) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) 0) (setprod (setexp x0 (Power (Power 0))) (setexp x1 (binrep (Power (Power 0)) 0)))) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) (setprod (setexp x0 (Power (Power 0))) (setprod (setexp x1 (Power (Power 0))) (setexp x2 (binrep (Power (Power 0)) 0))))) (setsum (setprod (binrep (Power (Power (Power 0))) 0) (setprod (setexp x0 (Power (Power 0))) (setprod (setexp x1 (Power (Power 0))) (setexp x2 (Power (Power 0)))))) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) 0) (setprod (setexp x0 (Power (Power 0))) (setprod (setexp x1 (Power (Power 0))) x2))) (setsum (setprod (binrep (Power (Power 0)) 0) (setprod (setexp x0 (Power (Power 0))) (setexp x1 (Power (Power 0))))) (setsum (setprod (binrep (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) (Power 0)) 0) (setprod (setexp x0 (Power (Power 0))) (setprod x1 (setexp x2 (binrep (Power (Power 0)) 0))))) (setsum (setprod (setexp x0 (Power (Power 0))) (setprod x1 (setexp x2 (Power (Power 0))))) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) (Power 0)) (setprod (setexp x0 (Power (Power 0))) (setprod x1 x2))) (setsum (setprod (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) (Power 0)) (setprod (setexp x0 (Power (Power 0))) x1)) (setsum (setprod (binrep (Power (Power (Power 0))) 0) (setprod (setexp x0 (Power (Power 0))) (setexp x2 (binrep (Power (Power 0)) 0)))) (setsum (setprod (binrep (Power (Power (Power 0))) (Power 0)) (setprod (setexp x0 (Power (Power 0))) x2)) (setsum (setprod x0 (setprod (setexp x1 (binrep (Power (Power 0)) 0)) (setexp x2 (binrep (Power (Power 0)) 0)))) (setsum (setprod (binrep (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) (Power 0)) 0) (setprod x0 (setprod (setexp x1 (binrep (Power (Power 0)) 0)) (setexp x2 (Power (Power 0)))))) (setsum (setprod (binrep (Power (Power (Power 0))) 0) (setprod x0 (setprod (setexp x1 (binrep (Power (Power 0)) 0)) x2))) (setsum (setprod (binrep (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) (Power 0)) 0) (setprod x0 (setexp x1 (binrep (Power (Power 0)) 0)))) (setsum (setprod (Power (Power 0)) (setprod x0 (setprod (setexp x1 (Power (Power 0))) (setexp x2 (binrep (Power (Power 0)) 0))))) (setsum (setprod (binrep (Power (Power 0)) 0) (setprod x0 (setprod (setexp x1 (Power (Power 0))) (setexp x2 (Power (Power 0)))))) (setsum (setprod (binrep (Power (Power 0)) 0) (setprod x0 (setprod (setexp x1 (Power (Power 0))) x2))) (setsum (setprod (Power (Power (Power 0))) (setprod x0 (setexp x1 (Power (Power 0))))) (setsum (setprod (Power (Power 0)) (setprod x0 (setprod x1 (setexp x2 (binrep (Power (Power 0)) 0))))) (setsum (setprod x0 (setprod x1 (setexp x2 (Power (Power 0))))) (setsum (setprod (Power (Power 0)) (setprod x0 (setprod x1 x2))) (setsum (setprod (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power 0)) 0) (setprod x0 x1)) (setsum (setprod (binrep (Power (Power (Power 0))) 0) (setprod x0 (setexp x2 (binrep (Power (Power 0)) 0)))) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) (Power 0)) (setprod x0 (setexp x2 (Power (Power 0))))) (setsum (setprod (Power (Power 0)) (setprod x0 x2)) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) (setprod (setexp x1 (binrep (Power (Power 0)) 0)) (setexp x2 (binrep (Power (Power 0)) 0)))) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) (setprod (setexp x1 (binrep (Power (Power 0)) 0)) (setexp x2 (Power (Power 0))))) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) (setprod (setexp x1 (binrep (Power (Power 0)) 0)) x2)) (setsum (setprod (Power (binrep (Power (Power 0)) 0)) (setprod (setexp x1 (Power (Power 0))) (setexp x2 (binrep (Power (Power 0)) 0)))) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) (Power 0)) (setprod (setexp x1 (Power (Power 0))) (setexp x2 (Power (Power 0))))) (setsum (setprod (binrep (Power (Power (Power 0))) 0) (setprod (setexp x1 (Power (Power 0))) x2)) (setsum (setprod (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power 0)) 0) (setexp x1 (Power (Power 0)))) (setsum (setprod (binrep (binrep (Power (Power (Power 0))) (Power 0)) 0) (setprod x1 (setexp x2 (binrep (Power (Power 0)) 0)))) (setsum (setprod (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) 0) (setprod x1 (setexp x2 (Power (Power 0))))) (setsum x1 (setsum (setprod (binrep (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) (Power 0)) 0) (setexp x2 (binrep (Power (Power 0)) 0))) (setsum (setprod (binrep (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) (Power 0)) 0) (setexp x2 (Power (Power 0)))) (setsum (setprod (Power (Power 0)) x2) (binrep (Power (Power 0)) 0)))))))))))))))))))))))))))))))))))))))))))))))))))))))))) (Power (Power (Power (Power 0))))) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setprod (setexp x1 (binrep (Power (Power 0)) 0)) (setexp x2 (binrep (Power (Power 0)) 0))))) (setsum (setprod (Power (Power 0)) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setprod (setexp x1 (binrep (Power (Power 0)) 0)) (setexp x2 (Power (Power 0)))))) (setsum (setprod (binrep (Power (Power 0)) 0) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setprod (setexp x1 (binrep (Power (Power 0)) 0)) x2))) (setsum (setprod (Power (Power 0)) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setexp x1 (binrep (Power (Power 0)) 0)))) (setsum (setprod (binrep (binrep (Power (Power (Power 0))) (Power 0)) 0) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setprod (setexp x1 (Power (Power 0))) (setexp x2 (binrep (Power (Power 0)) 0))))) (setsum (setprod (binrep (Power (Power 0)) 0) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setprod (setexp x1 (Power (Power 0))) (setexp x2 (Power (Power 0)))))) (setsum (setprod (Power (binrep (Power (Power 0)) 0)) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setprod (setexp x1 (Power (Power 0))) x2))) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) (Power 0)) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setexp x1 (Power (Power 0))))) (setsum (setprod (binrep (Power (Power (Power 0))) 0) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setprod x1 (setexp x2 (binrep (Power (Power 0)) 0))))) (setsum (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setprod x1 (setexp x2 (Power (Power 0))))) (setsum (setprod (Power (Power 0)) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setprod x1 x2))) (setsum (setprod (Power (binrep (Power (Power 0)) 0)) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) x1)) (setsum (setprod (setexp x0 (binrep (Power (Power 0)) 0)) (setexp x2 (Power (Power 0)))) (setsum (setprod (binrep (binrep (Power (Power (Power 0))) (Power 0)) 0) (setprod (setexp x0 (binrep (Power (Power 0)) 0)) x2)) (setsum (setprod (binrep (Power (Power (Power 0))) 0) (setexp x0 (binrep (Power (Power 0)) 0))) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) 0) (setprod (setexp x0 (Power (Power 0))) (setprod (setexp x1 (binrep (Power (Power 0)) 0)) (setexp x2 (binrep (Power (Power 0)) 0))))) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) (setprod (setexp x0 (Power (Power 0))) (setprod (setexp x1 (binrep (Power (Power 0)) 0)) (setexp x2 (Power (Power 0)))))) (setsum (setprod (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) (Power 0)) (setprod (setexp x0 (Power (Power 0))) (setprod (setexp x1 (binrep (Power (Power 0)) 0)) x2))) (setsum (setprod (binrep (Power (Power 0)) 0) (setprod (setexp x0 (Power (Power 0))) (setexp x1 (binrep (Power (Power 0)) 0)))) (setsum (setprod (Power (Power (Power 0))) (setprod (setexp x0 (Power (Power 0))) (setprod (setexp x1 (Power (Power 0))) (setexp x2 (binrep (Power (Power 0)) 0))))) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) 0) (setprod (setexp x0 (Power (Power 0))) (setprod (setexp x1 (Power (Power 0))) (setexp x2 (Power (Power 0)))))) (setsum (setprod (Power (Power (Power 0))) (setprod (setexp x0 (Power (Power 0))) (setprod (setexp x1 (Power (Power 0))) x2))) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) (Power 0)) (setprod (setexp x0 (Power (Power 0))) (setexp x1 (Power (Power 0))))) (setsum (setprod (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power 0)) 0) (setprod (setexp x0 (Power (Power 0))) (setprod x1 (setexp x2 (binrep (Power (Power 0)) 0))))) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) 0) (setprod (setexp x0 (Power (Power 0))) (setprod x1 (setexp x2 (Power (Power 0)))))) (setsum (setprod (binrep (Power (Power (Power 0))) (Power 0)) (setprod (setexp x0 (Power (Power 0))) (setprod x1 x2))) (setsum (setprod (setexp x0 (Power (Power 0))) x1) (setsum (setprod (Power (binrep (Power (Power 0)) 0)) (setprod (setexp x0 (Power (Power 0))) (setexp x2 (binrep (Power (Power 0)) 0)))) (setsum (setprod (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) (Power 0)) (setprod (setexp x0 (Power (Power 0))) (setexp x2 (Power (Power 0))))) (setsum (setprod (binrep (binrep (Power (Power (Power 0))) (Power 0)) 0) (setprod (setexp x0 (Power (Power 0))) x2)) (setsum (setprod (binrep (Power (Power 0)) 0) (setexp x0 (Power (Power 0)))) (setsum (setprod (Power (Power 0)) (setprod x0 (setprod (setexp x1 (binrep (Power (Power 0)) 0)) (setexp x2 (binrep (Power (Power 0)) 0))))) (setsum (setprod (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) 0) (setprod x0 (setprod (setexp x1 (binrep (Power (Power 0)) 0)) (setexp x2 (Power (Power 0)))))) (setsum (setprod (binrep (binrep (Power (Power (Power 0))) (Power 0)) 0) (setprod x0 (setprod (setexp x1 (binrep (Power (Power 0)) 0)) x2))) (setsum (setprod x0 (setexp x1 (binrep (Power (Power 0)) 0))) (setsum (setprod (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) 0) (setprod x0 (setprod (setexp x1 (Power (Power 0))) (setexp x2 (binrep (Power (Power 0)) 0))))) (setsum (setprod (binrep (binrep (Power (Power (Power 0))) (Power 0)) 0) (setprod x0 (setprod (setexp x1 (Power (Power 0))) x2))) (setsum (setprod (Power (binrep (Power (Power 0)) 0)) (setprod x0 (setexp x1 (Power (Power 0))))) (setsum (setprod (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) 0) (setprod x0 (setprod x1 (setexp x2 (binrep (Power (Power 0)) 0))))) (setsum (setprod (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power 0)) 0) (setprod x0 (setprod x1 (setexp x2 (Power (Power 0)))))) (setsum (setprod (binrep (Power (Power (Power 0))) 0) (setprod x0 (setprod x1 x2))) (setsum (setprod (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) 0) (setprod x0 x1)) (setsum (setprod (Power (Power 0)) (setprod x0 (setexp x2 (binrep (Power (Power 0)) 0)))) (setsum (setprod (binrep (Power (Power 0)) 0) (setprod x0 (setexp x2 (Power (Power 0))))) (setsum (setprod (Power (Power 0)) (setprod x0 x2)) (setsum (setprod (Power (Power 0)) x0) (setsum (setprod (Power (Power (Power 0))) (setprod (setexp x1 (binrep (Power (Power 0)) 0)) (setexp x2 (binrep (Power (Power 0)) 0)))) (setsum (setprod (binrep (Power (Power (Power 0))) 0) (setprod (setexp x1 (binrep (Power (Power 0)) 0)) (setexp x2 (Power (Power 0))))) (setsum (setprod (binrep (Power (Power (Power 0))) 0) (setprod (setexp x1 (binrep (Power (Power 0)) 0)) x2)) (setsum (setprod (binrep (Power (Power (Power 0))) (Power 0)) (setexp x1 (binrep (Power (Power 0)) 0))) (setsum (setprod (Power (Power 0)) (setprod (setexp x1 (Power (Power 0))) (setexp x2 (binrep (Power (Power 0)) 0)))) (setsum (setprod (binrep (Power (Power (Power 0))) 0) (setprod (setexp x1 (Power (Power 0))) (setexp x2 (Power (Power 0))))) (setsum (setprod (binrep (Power (Power (Power 0))) 0) (setexp x1 (Power (Power 0)))) (setsum (setprod (binrep (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) (Power 0)) 0) (setprod x1 (setexp x2 (binrep (Power (Power 0)) 0)))) (setsum (setprod (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power 0)) 0) (setprod x1 (setexp x2 (Power (Power 0))))) (setsum (setprod (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power 0)) 0) (setprod x1 x2)) (setsum (setprod (binrep (Power (binrep (Power (Power 0)) 0)) 0) (setexp x2 (binrep (Power (Power 0)) 0))) (setsum (setprod (Power (Power 0)) (setexp x2 (Power (Power 0)))) (setsum (setprod (binrep (Power (Power (Power 0))) 0) x2) (binrep (binrep (binrep (Power (binrep (Power (Power 0)) 0)) (Power (Power 0))) (Power 0)) 0)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))) ⟶ False) ⟶ ∀ x0 : ο . x0

type
prop

theory
HF

name
-

proof
PUVpr..

Megalodon
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proofgold address
TMb4t..

creator
22395 PrBTh../35d26..

owner
22395 PrBTh../35d26..

term root
e815e..