Proof of Nuprl Lemma : adjugate-property

Step * 2 2 1 of Lemma adjugate-property

.....equality.....
1. r : CRng
2. n : ℕ
3. M : Matrix(n;n;r)
4. ¬(n = 0 ∈ ℤ)
5. x : ℕn@i
6. y : ℕn@i
7. |matrix(if a=y then M[x,b] else M[a,b])| = (|M| * if x=y then 1 else 0) ∈ |r|
8. ∀M:Matrix(n;n;r). ∀x:ℕn.

     (|M| = (Σ(r) 0 ≤ i < n. if isEven(i + x) then M[x,i] else -r M[x,i] fi  * |matrix-minor(x;i;M)|) ∈ |r|)

9. |matrix(if a=y then M[x,b] else M[a,b])|
= (Σ(r) 0
        ≤ i
        < n
    if isEven(i + y)
    then matrix(if a=y then M[x,b] else M[a,b])[y,i]
    else -r matrix(if a=y then M[x,b] else M[a,b])[y,i]
    fi
    *
    |matrix-minor(y;i;matrix(if a=y then M[x,b] else M[a,b]))|)
∈ |r|
10. i : ℕn@i

⊢ matrix-minor(y;i;matrix(if a=y then M[x,b] else M[a,b])) = matrix-minor(y;i;M) ∈ Matrix(n - 1;n - 1;r)

BY
{ (Unfold `matrix-minor` 0 THEN Fold `mx` 0 THEN EqCDA THEN Reduce 0 THEN AutoSplit) }

Latex:

Latex:
.....equality..... 1. r : CRng 2. n : \mBbbN{} 3. M : Matrix(n;n;r) 4. \mneg{}(n = 0) 5. x : \mBbbN{}n@i 6. y : \mBbbN{}n@i 7. |matrix(if a=y then M[x,b] else M[a,b])| = (|M| * if x=y then 1 else 0) 8. \mforall{}M:Matrix(n;n;r). \mforall{}x:\mBbbN{}n. (|M| = (\mSigma{}(r) 0 \mleq{} i < n if isEven(i + x) then M[x,i] else -r M[x,i] fi * |matrix-minor(x;i;M)|)) 9. |matrix(if a=y then M[x,b] else M[a,b])| = (\mSigma{}(r) 0 \mleq{} i < n if isEven(i + y) then matrix(if a=y then M[x,b] else M[a,b])[y,i] else -r matrix(if a=y then M[x,b] else M[a,b])[y,i] fi * |matrix-minor(y;i;matrix(if a=y then M[x,b] else M[a,b]))|) 10. i : \mBbbN{}n@i \mvdash{} matrix-minor(y;i;matrix(if a=y then M[x,b] else M[a,b])) = matrix-minor(y;i;M) By Latex: (Unfold `matrix-minor` 0 THEN Fold `mx` 0 THEN EqCDA THEN Reduce 0 THEN AutoSplit) Home Index