Proof of Nuprl Lemma : arith-geom-mean-inequality

Step * 1 1 1 2 1 1 1 of Lemma arith-geom-mean-inequality

1. x : {t:ℝ| r0 ≤ t}
2. y : {t:ℝ| r0 ≤ t}
3. ((x - y) * (x - y)) = (((x + y) * (x + y)) + (r(-4) * x * y))
4. r0 ≤ (((x + y) * (x + y)) + (r(-4) * x * y))
5. (r(4) * x * y) ≤ ((x + y) * (x + y))
⊢ (r(2) * rsqrt(x * y)) ≤ (x + y)
BY
{ (Assert rsqrt(r(4) * x * y) ≤ rsqrt((x + y) * (x + y)) BY
(RWO "-1" 0 THEN Auto)) }

1
1. x : {t:ℝ| r0 ≤ t}
2. y : {t:ℝ| r0 ≤ t}
3. ((x - y) * (x - y)) = (((x + y) * (x + y)) + (r(-4) * x * y))
4. r0 ≤ (((x + y) * (x + y)) + (r(-4) * x * y))
5. (r(4) * x * y) ≤ ((x + y) * (x + y))
6. rsqrt(r(4) * x * y) ≤ rsqrt((x + y) * (x + y))
⊢ (r(2) * rsqrt(x * y)) ≤ (x + y)

Latex:

Latex:
1. x : \{t:\mBbbR{}| r0 \mleq{} t\} 2. y : \{t:\mBbbR{}| r0 \mleq{} t\} 3. ((x - y) * (x - y)) = (((x + y) * (x + y)) + (r(-4) * x * y)) 4. r0 \mleq{} (((x + y) * (x + y)) + (r(-4) * x * y)) 5. (r(4) * x * y) \mleq{} ((x + y) * (x + y)) \mvdash{} (r(2) * rsqrt(x * y)) \mleq{} (x + y) By Latex: (Assert rsqrt(r(4) * x * y) \mleq{} rsqrt((x + y) * (x + y)) BY (RWO "-1" 0 THEN Auto)) Home Index