Proof of Nuprl Lemma : ip-between-iff

Step * 2 1 2 1 1 1 of Lemma ip-between-iff

1. rv : InnerProductSpace
2. a : Point
3. c : Point
4. t : ℝ
5. (r0 < t) ∧ (t < r1)
6. a - t*a + r1 - t*c ≡ r1 - t*a - c
7. c - t*a + r1 - t*c ≡ -(t)*a - c
8. v : Point
9. a - c = v ∈ Point
10. |r1 - t| = (r1 - t)
⊢ ((((r1 - t) * ||v||) * |-(t)| * ||v||) + ((r1 - t) * -(t) * ||v|| * ||v||)) = r0
BY
{ ((Assert |-(t)| = t BY
          ((RWO "rabs-rminus" 0 THENA Auto) THEN BLemma `rabs-of-nonneg` THEN Auto))
   THEN (RWO "-1" 0 THENA Auto)
   ) }

1
1. rv : InnerProductSpace
2. a : Point
3. c : Point
4. t : ℝ
5. (r0 < t) ∧ (t < r1)
6. a - t*a + r1 - t*c ≡ r1 - t*a - c
7. c - t*a + r1 - t*c ≡ -(t)*a - c
8. v : Point
9. a - c = v ∈ Point
10. |r1 - t| = (r1 - t)
11. |-(t)| = t
⊢ ((((r1 - t) * ||v||) * t * ||v||) + ((r1 - t) * -(t) * ||v|| * ||v||)) = r0

Latex:

Latex:
1. rv : InnerProductSpace 2. a : Point 3. c : Point 4. t : \mBbbR{} 5. (r0 < t) \mwedge{} (t < r1) 6. a - t*a + r1 - t*c \mequiv{} r1 - t*a - c 7. c - t*a + r1 - t*c \mequiv{} -(t)*a - c 8. v : Point 9. a - c = v 10. |r1 - t| = (r1 - t) \mvdash{} ((((r1 - t) * ||v||) * |-(t)| * ||v||) + ((r1 - t) * -(t) * ||v|| * ||v||)) = r0 By Latex: ((Assert |-(t)| = t BY ((RWO "rabs-rminus" 0 THENA Auto) THEN BLemma `rabs-of-nonneg` THEN Auto)) THEN (RWO "-1" 0 THENA Auto) ) Home Index