Proof of Nuprl Lemma : wilson-theorem

Step * 1 1 2 2 of Lemma wilson-theorem

1. n : {i:ℤ| 1 < i}
2. prime(n)
3. ∀b:ℕn. ((rotate-by(n;1) (rotate-by(n;n - 1) b)) = b ∈ ℕn)
4. ∀b:ℕn. ((rotate-by(n;n - 1) (rotate-by(n;1) b)) = b ∈ ℕn)
5. cyclic-map(ℕn) ~ ℕ(n - 1)!
6. Inj(cyclic-map(ℕn);cyclic-map(ℕn);λf.(rotate-by(n;n - 1) o (f o rotate-by(n;1))))

⊢ {x:cyclic-map(ℕn)| (rotate-by(n;n - 1) o (x o rotate-by(n;1))) = x ∈ cyclic-map(ℕn)}  ~ ℕn - 1

{ Assert ⌜∀f:{x:ℕn ⟶ ℕn| (rotate-by(n;n - 1) o (x o rotate-by(n;1))) = x ∈ (ℕn ⟶ ℕn)}

(f = rotate-by(n;f 0) ∈ (ℕn ⟶ ℕn))⌝⋅ }

1
.....assertion.....
1. n : {i:ℤ| 1 < i}
2. prime(n)
3. ∀b:ℕn. ((rotate-by(n;1) (rotate-by(n;n - 1) b)) = b ∈ ℕn)
4. ∀b:ℕn. ((rotate-by(n;n - 1) (rotate-by(n;1) b)) = b ∈ ℕn)
5. cyclic-map(ℕn) ~ ℕ(n - 1)!
6. Inj(cyclic-map(ℕn);cyclic-map(ℕn);λf.(rotate-by(n;n - 1) o (f o rotate-by(n;1))))

⊢ ∀f:{x:ℕn ⟶ ℕn| (rotate-by(n;n - 1) o (x o rotate-by(n;1))) = x ∈ (ℕn ⟶ ℕn)} . (f = rotate-by(n;f 0) ∈ (ℕn ⟶ ℕn))

2
1. n : {i:ℤ| 1 < i}
2. prime(n)
3. ∀b:ℕn. ((rotate-by(n;1) (rotate-by(n;n - 1) b)) = b ∈ ℕn)
4. ∀b:ℕn. ((rotate-by(n;n - 1) (rotate-by(n;1) b)) = b ∈ ℕn)
5. cyclic-map(ℕn) ~ ℕ(n - 1)!
6. Inj(cyclic-map(ℕn);cyclic-map(ℕn);λf.(rotate-by(n;n - 1) o (f o rotate-by(n;1))))

7. ∀f:{x:ℕn ⟶ ℕn| (rotate-by(n;n - 1) o (x o rotate-by(n;1))) = x ∈ (ℕn ⟶ ℕn)} . (f = rotate-by(n;f 0) ∈ (ℕn ⟶ ℕn))

⊢ {x:cyclic-map(ℕn)| (rotate-by(n;n - 1) o (x o rotate-by(n;1))) = x ∈ cyclic-map(ℕn)}  ~ ℕn - 1

Latex:

Latex:
1. n : \{i:\mBbbZ{}| 1 < i\} 2. prime(n) 3. \mforall{}b:\mBbbN{}n. ((rotate-by(n;1) (rotate-by(n;n - 1) b)) = b) 4. \mforall{}b:\mBbbN{}n. ((rotate-by(n;n - 1) (rotate-by(n;1) b)) = b) 5. cyclic-map(\mBbbN{}n) \msim{} \mBbbN{}(n - 1)! 6. Inj(cyclic-map(\mBbbN{}n);cyclic-map(\mBbbN{}n);\mlambda{}f.(rotate-by(n;n - 1) o (f o rotate-by(n;1)))) \mvdash{} \{x:cyclic-map(\mBbbN{}n)| (rotate-by(n;n - 1) o (x o rotate-by(n;1))) = x\} \msim{} \mBbbN{}n - 1 By Latex: Assert \mkleeneopen{}\mforall{}f:\{x:\mBbbN{}n {}\mrightarrow{} \mBbbN{}n| (rotate-by(n;n - 1) o (x o rotate-by(n;1))) = x\} . (f = rotate-by(n;f 0))\mkleeneclose{}\mcdot{} Home Index