Proof of Nuprl Lemma : hyptrans-is-translation-group-fun

Step * 2 1 1 1 of Lemma hyptrans-is-translation-group-fun

.....assertion.....
1. rv : InnerProductSpace
2. e : Point
3. e^2 = r1

4. ∀[x:Point]. ∀[t,s:ℝ].  hyptrans(rv;e;t + s;x) ≡ hyptrans(rv;e;t;hyptrans(rv;e;s;x)) supposing e^2 = r1

5. x : Point
6. t : {t:ℝ| r0 ≤ t}
7. h : Point
8. tau : ℝ
9. h ⋅ e = r0
10. x ≡ h + sinh(tau) * rsqrt(r1 + h^2)*e
11. a : ℝ
12. rsqrt(r1 + h^2) = a ∈ ℝ
13. r0 < a
⊢ sinh(tau) ≤ sinh(tau + t)
BY
{ (BLemma `sinh-rleq` THEN Auto) }

Latex:

Latex:
.....assertion..... 1. rv : InnerProductSpace 2. e : Point 3. e\^{}2 = r1 4. \mforall{}[x:Point]. \mforall{}[t,s:\mBbbR{}]. hyptrans(rv;e;t + s;x) \mequiv{} hyptrans(rv;e;t;hyptrans(rv;e;s;x)) supposing e\^{}2 = r1 5. x : Point 6. t : \{t:\mBbbR{}| r0 \mleq{} t\} 7. h : Point 8. tau : \mBbbR{} 9. h \mcdot{} e = r0 10. x \mequiv{} h + sinh(tau) * rsqrt(r1 + h\^{}2)*e 11. a : \mBbbR{} 12. rsqrt(r1 + h\^{}2) = a 13. r0 < a \mvdash{} sinh(tau) \mleq{} sinh(tau + t) By Latex: (BLemma `sinh-rleq` THEN Auto) Home Index