Proof of Nuprl Lemma : es-pstar-q_functionality_wrt_rev

Step * of Lemma es-pstar-q_functionality_wrt_rev_implies

∀es:EO. ∀e1:E. ∀e2:{e:E| loc(e) = loc(e1) ∈ Id} .
  ∀[p',q',p,q:{e:E| loc(e) = loc(e1) ∈ Id}  ⟶ {e:E| loc(e) = loc(e1) ∈ Id}  ⟶ ℙ].
    ((∀a,b:{e:E| loc(e) = loc(e1) ∈ Id} .  ((a ∈ [e1, e2]) ⇒ (b ∈ [e1, e2]) ⇒ {p[a;b] ⇐ p'[a;b]}))
    ⇒ (∀a,b:{e:E| loc(e) = loc(e1) ∈ Id} .  ((a ∈ [e1, e2]) ⇒ (b ∈ [e1, e2]) ⇒ {q[a;b] ⇐ q'[a;b]}))
    ⇒ {[e1;e2]~([a,b].p[a;b])*[a,b].q[a;b] ⇐ [e1;e2]~([a,b].p'[a;b])*[a,b].q'[a;b]})
BY
{ ((InstLemma `es-pstar-q_functionality_wrt_implies` []) THEN Unfold `rev_implies` 0 THEN Trivial) }

Latex:

Latex:
\mforall{}es:EO. \mforall{}e1:E. \mforall{}e2:\{e:E| loc(e) = loc(e1)\} . \mforall{}[p',q',p,q:\{e:E| loc(e) = loc(e1)\} {}\mrightarrow{} \{e:E| loc(e) = loc(e1)\} {}\mrightarrow{} \mBbbP{}]. ((\mforall{}a,b:\{e:E| loc(e) = loc(e1)\} . ((a \mmember{} [e1, e2]) {}\mRightarrow{} (b \mmember{} [e1, e2]) {}\mRightarrow{} \{p[a;b] \mLeftarrow{}{} p'[a;b]\})) {}\mRightarrow{} (\mforall{}a,b:\{e:E| loc(e) = loc(e1)\} . ((a \mmember{} [e1, e2]) {}\mRightarrow{} (b \mmember{} [e1, e2]) {}\mRightarrow{} \{q[a;b] \mLeftarrow{}{} q'[a;b]\})) {}\mRightarrow{} \{[e1;e2]\msim{}([a,b].p[a;b])*[a,b].q[a;b] \mLeftarrow{}{} [e1;e2]\msim{}([a,b].p'[a;b])*[a,b].q'[a;b]\}) By Latex: ((InstLemma `es-pstar-q\_functionality\_wrt\_implies` []) THEN Unfold `rev\_implies` 0 THEN Trivial) Home Index