Proof of Nuprl Lemma : not-discontinuous

Step * 1 1 of Lemma not-discontinuous

1. f : ℝ ⟶ ℝ
2. ∀x,y:ℝ.  ((x = y) ⇒ ((f x) = (f y)))
3. x : ℝ
4. epsilon : {e:ℝ| r0 < e}
5. ∀delta:{e:ℝ| r0 < e} . ∃y:ℝ. ((|x - y| < delta) ∧ (epsilon < |(f x) - f y|))
⊢ False
BY
{ (InstLemma `real-fun-iff-continuous` [⌜x - r1⌝;⌜x + r1⌝;⌜f⌝]⋅ THENA Auto) }

1
.....antecedent.....
1. f : ℝ ⟶ ℝ
2. ∀x,y:ℝ.  ((x = y) ⇒ ((f x) = (f y)))
3. x : ℝ
4. epsilon : {e:ℝ| r0 < e}
5. ∀delta:{e:ℝ| r0 < e} . ∃y:ℝ. ((|x - y| < delta) ∧ (epsilon < |(f x) - f y|))
⊢ (x - r1) < (x + r1)

2
1. f : ℝ ⟶ ℝ
2. ∀x,y:ℝ.  ((x = y) ⇒ ((f x) = (f y)))
3. x : ℝ
4. epsilon : {e:ℝ| r0 < e}
5. ∀delta:{e:ℝ| r0 < e} . ∃y:ℝ. ((|x - y| < delta) ∧ (epsilon < |(f x) - f y|))
6. real-fun(f;x - r1;x + r1) ⇐⇒ real-cont(f;x - r1;x + r1)
⊢ False

Latex:

Latex:
1. f : \mBbbR{} {}\mrightarrow{} \mBbbR{} 2. \mforall{}x,y:\mBbbR{}. ((x = y) {}\mRightarrow{} ((f x) = (f y))) 3. x : \mBbbR{} 4. epsilon : \{e:\mBbbR{}| r0 < e\} 5. \mforall{}delta:\{e:\mBbbR{}| r0 < e\} . \mexists{}y:\mBbbR{}. ((|x - y| < delta) \mwedge{} (epsilon < |(f x) - f y|)) \mvdash{} False By Latex: (InstLemma `real-fun-iff-continuous` [\mkleeneopen{}x - r1\mkleeneclose{};\mkleeneopen{}x + r1\mkleeneclose{};\mkleeneopen{}f\mkleeneclose{}]\mcdot{} THENA Auto) Home Index