Proof of Nuprl Lemma : pes-axioms

Step * of Lemma pes-axioms

∀the_es:EO
  (Trans(E;e,e'.(e <loc e'))
  ∧ SWellFounded((e <loc e'))
  ∧ (∀e,e':E.  (loc(e) = loc(e') ∈ Id ⇐⇒ (e <loc e') ∨ (e = e' ∈ E) ∨ (e' <loc e)))
  ∧ (∀e:E. (↑first(e) ⇐⇒ ∀e':E. (¬(e' <loc e))))

  ∧ (∀e:E. (pred(e) <loc e) ∧ (∀e':E. (¬((pred(e) <loc e') ∧ (e' <loc e)))) supposing ¬↑first(e))

  ∧ Trans(E;e,e'.(e < e'))
  ∧ SWellFounded((e < e'))
  ∧ (∀e,e':E.  ((e <loc e') ⇒ (e < e'))))
BY
{ ((D 0 THENA Auto) THEN SplitAndConcl) }

1
1. the_es : EO@i'
⊢ Trans(E;e,e'.(e <loc e'))

2
1. the_es : EO@i'
⊢ SWellFounded((e <loc e'))

3
1. the_es : EO@i'
⊢ ∀e,e':E.  (loc(e) = loc(e') ∈ Id ⇐⇒ (e <loc e') ∨ (e = e' ∈ E) ∨ (e' <loc e))

4
1. the_es : EO@i'
⊢ ∀e:E. (↑first(e) ⇐⇒ ∀e':E. (¬(e' <loc e)))

5
1. the_es : EO@i'

⊢ ∀e:E. (pred(e) <loc e) ∧ (∀e':E. (¬((pred(e) <loc e') ∧ (e' <loc e)))) supposing ¬↑first(e)

6
1. the_es : EO@i'
⊢ Trans(E;e,e'.(e < e'))

7
1. the_es : EO@i'
⊢ SWellFounded((e < e'))

8
1. the_es : EO@i'
⊢ ∀e,e':E. ((e <loc e') ⇒ (e < e'))

Latex:

Latex:
\mforall{}the$_{es}$:EO (Trans(E;e,e'.(e <loc e')) \mwedge{} SWellFounded((e <loc e')) \mwedge{} (\mforall{}e,e':E. (loc(e) = loc(e') \mLeftarrow{}{}\mRightarrow{} (e <loc e') \mvee{} (e = e') \mvee{} (e' <loc e))) \mwedge{} (\mforall{}e:E. (\muparrow{}first(e) \mLeftarrow{}{}\mRightarrow{} \mforall{}e':E. (\mneg{}(e' <loc e)))) \mwedge{} (\mforall{}e:E. (pred(e) <loc e) \mwedge{} (\mforall{}e':E. (\mneg{}((pred(e) <loc e') \mwedge{} (e' <loc e)))) supposing \mneg{}\muparrow{}first(e)) \mwedge{} Trans(E;e,e'.(e < e')) \mwedge{} SWellFounded((e < e')) \mwedge{} (\mforall{}e,e':E. ((e <loc e') {}\mRightarrow{} (e < e')))) By Latex: ((D 0 THENA Auto) THEN SplitAndConcl) Home Index