Proof of Nuprl Lemma : rexp-rlog

Step * 1 1 2 1 1 1 of Lemma rexp-rlog

1. x : ℝ
2. r0 < x
3. e^rlog(x) < x
4. x_∫^-e^rlog(x) (r1/t) dt = r0
5. λt.(r1/t) ∈ {f:(r0, ∞) ⟶ℝ| ∀a,b:{x:ℝ| r0 < x} .  ((a = b) ⇒ (f[a] = f[b]))}
6. e^rlog(x)_∫^-x (r1/x) dx = ∫ (r1/x) dx on [e^rlog(x), x]
⊢ False
BY
{ Assert ⌜e^rlog(x)_∫^-x (r1/t) dt = r0⌝⋅ }

1
.....assertion.....
1. x : ℝ
2. r0 < x
3. e^rlog(x) < x
4. x_∫^-e^rlog(x) (r1/t) dt = r0
5. λt.(r1/t) ∈ {f:(r0, ∞) ⟶ℝ| ∀a,b:{x:ℝ| r0 < x} .  ((a = b) ⇒ (f[a] = f[b]))}
6. e^rlog(x)_∫^-x (r1/x) dx = ∫ (r1/x) dx on [e^rlog(x), x]
⊢ e^rlog(x)_∫^-x (r1/t) dt = r0

2
1. x : ℝ
2. r0 < x
3. e^rlog(x) < x
4. x_∫^-e^rlog(x) (r1/t) dt = r0
5. λt.(r1/t) ∈ {f:(r0, ∞) ⟶ℝ| ∀a,b:{x:ℝ| r0 < x} .  ((a = b) ⇒ (f[a] = f[b]))}
6. e^rlog(x)_∫^-x (r1/x) dx = ∫ (r1/x) dx on [e^rlog(x), x]
7. e^rlog(x)_∫^-x (r1/t) dt = r0
⊢ False

Latex:

Latex:
1. x : \mBbbR{} 2. r0 < x 3. e\^{}rlog(x) < x 4. x\_\mint{}\msupminus{}e\^{}rlog(x) (r1/t) dt = r0 5. \mlambda{}t.(r1/t) \mmember{} \{f:(r0, \minfty{}) {}\mrightarrow{}\mBbbR{}| \mforall{}a,b:\{x:\mBbbR{}| r0 < x\} . ((a = b) {}\mRightarrow{} (f[a] = f[b]))\} 6. e\^{}rlog(x)\_\mint{}\msupminus{}x (r1/x) dx = \mint{} (r1/x) dx on [e\^{}rlog(x), x] \mvdash{} False By Latex: Assert \mkleeneopen{}e\^{}rlog(x)\_\mint{}\msupminus{}x (r1/t) dt = r0\mkleeneclose{}\mcdot{} Home Index