Proof of Nuprl Lemma : infn-rleq

Step * 2 2 1 1 1 1 1 1 1 of Lemma infn-rleq

1. I : {I:Interval| icompact(I)}
2. n : ℤ
3. 0 < n
4. f : {f:I^n ⟶ ℝ| ∀a,b:I^n. (req-vec(n;a;b) ⇒ ((f a) = (f b)))}
5. x : I^n

6. ∀z:{x:ℝ| x ∈ I} . (λa.(f a++z) ∈ {f:I^n - 1 ⟶ ℝ| ∀a,b:I^n - 1.  (req-vec(n - 1;a;b)

⇒ ((f a) = (f b)))} )
7. x (n - 1) ∈ {x:ℝ| x ∈ I}
8. (infn(n - 1;I) (λa.(f a++x (n - 1)))) ≤ (f x++x (n - 1))
9. ∀f,g:I^n ⟶ ℝ.
     ((∀x,y:I^n.  (req-vec(n;x;y) ⇒ ((f x) = (f y))))
     ⇒ (∀x:I^n. ((f x) = (g x)))
     ⇒ (inf{infn(n - 1;I) (λa.(f a++z)) | z ∈ I} = inf{infn(n - 1;I) (λa.(g a++z)) | z ∈ I}))
10. ∀f,g:I^n - 1 ⟶ ℝ.
      ((∀x,y:I^n - 1.  (req-vec(n - 1;x;y) ⇒ ((f x) = (f y))))
      ⇒ (∀x:I^n - 1. ((f x) = (g x)))
      ⇒ ((infn(n - 1;I) f) = (infn(n - 1;I) g)))
11. ∀a,b:I^n.  (req-vec(n;a;b) ⇒ ((f a) = (f b)))
12. inf(infn(n - 1;I) (λa.(f a++x))(x∈I)) = inf{infn(n - 1;I) (λa.(f a++x)) | x ∈ I}
13. inf{infn(n - 1;I) (λa.(f a++z)) | z ∈ I} ≤ (infn(n - 1;I) (λa.(f a++x (n - 1))))
⊢ inf{infn(n - 1;I) (λa.(f a++z)) | z ∈ I} ≤ (f x)
BY
{ (Assert ∀z,y:{z:ℝ| z ∈ I} .  ((z = y) ⇒ ((infn(n - 1;I) (λa.(f a++z))) = (infn(n - 1;I) (λa.(f a++y))))) BY
         (Intros
          THEN BLemma `infn_functionality`
          THEN Try (((Intros THEN Reduce 0)
                     THEN BackThruSomeHyp
                     THEN Try (ParallelLast)
                     THEN RepUR ``req-vec real-vec-extend`` 0))
          THEN Auto)) }

1
1. I : {I:Interval| icompact(I)}
2. n : ℤ
3. 0 < n
4. f : {f:I^n ⟶ ℝ| ∀a,b:I^n.  (req-vec(n;a;b) ⇒ ((f a) = (f b)))}
5. x : I^n

6. ∀z:{x:ℝ| x ∈ I} . (λa.(f a++z) ∈ {f:I^n - 1 ⟶ ℝ| ∀a,b:I^n - 1.  (req-vec(n - 1;a;b)

Latex:

Latex:
1. I : \{I:Interval| icompact(I)\} 2. n : \mBbbZ{} 3. 0 < n 4. f : \{f:I\^{}n {}\mrightarrow{} \mBbbR{}| \mforall{}a,b:I\^{}n. (req-vec(n;a;b) {}\mRightarrow{} ((f a) = (f b)))\} 5. x : I\^{}n 6. \mforall{}z:\{x:\mBbbR{}| x \mmember{} I\} (\mlambda{}a.(f a++z) \mmember{} \{f:I\^{}n - 1 {}\mrightarrow{} \mBbbR{}| \mforall{}a,b:I\^{}n - 1. (req-vec(n - 1;a;b) {}\mRightarrow{} ((f a) = (f b)))\} ) 7. x (n - 1) \mmember{} \{x:\mBbbR{}| x \mmember{} I\} 8. (infn(n - 1;I) (\mlambda{}a.(f a++x (n - 1)))) \mleq{} (f x++x (n - 1)) 9. \mforall{}f,g:I\^{}n {}\mrightarrow{} \mBbbR{}. ((\mforall{}x,y:I\^{}n. (req-vec(n;x;y) {}\mRightarrow{} ((f x) = (f y)))) {}\mRightarrow{} (\mforall{}x:I\^{}n. ((f x) = (g x))) {}\mRightarrow{} (inf\{infn(n - 1;I) (\mlambda{}a.(f a++z)) | z \mmember{} I\} = inf\{infn(n - 1;I) (\mlambda{}a.(g a++z)) | z \mmember{} I\})) 10. \mforall{}f,g:I\^{}n - 1 {}\mrightarrow{} \mBbbR{}. ((\mforall{}x,y:I\^{}n - 1. (req-vec(n - 1;x;y) {}\mRightarrow{} ((f x) = (f y)))) {}\mRightarrow{} (\mforall{}x:I\^{}n - 1. ((f x) = (g x))) {}\mRightarrow{} ((infn(n - 1;I) f) = (infn(n - 1;I) g))) 11. \mforall{}a,b:I\^{}n. (req-vec(n;a;b) {}\mRightarrow{} ((f a) = (f b))) 12. inf(infn(n - 1;I) (\mlambda{}a.(f a++x))(x\mmember{}I)) = inf\{infn(n - 1;I) (\mlambda{}a.(f a++x)) | x \mmember{} I\} 13. inf\{infn(n - 1;I) (\mlambda{}a.(f a++z)) | z \mmember{} I\} \mleq{} (infn(n - 1;I) (\mlambda{}a.(f a++x (n - 1)))) \mvdash{} inf\{infn(n - 1;I) (\mlambda{}a.(f a++z)) | z \mmember{} I\} \mleq{} (f x) By Latex: (Assert \mforall{}z,y:\{z:\mBbbR{}| z \mmember{} I\} . ((z = y) {}\mRightarrow{} ((infn(n - 1;I) (\mlambda{}a.(f a++z))) = (infn(n - 1;I) (\mlambda{}a.(f a++y))))) BY (Intros THEN BLemma `infn\_functionality` THEN Try (((Intros THEN Reduce 0) THEN BackThruSomeHyp THEN Try (ParallelLast) THEN RepUR ``req-vec real-vec-extend`` 0)) THEN Auto)) Home Index