Proof of Nuprl Lemma : cyclic-map-equipollent

Step * 2 2 1 1 1 1 1 of Lemma cyclic-map-equipollent

1. n : ℕ⁺
2. ∀L:Combination(n - 1;ℕn - 1). ([n - 1 / L] ∈ Combination(n;ℕn))
3. b : ℕn ⟶ ℕn
4. Inj(ℕn;ℕn;b)
5. ∀x,y:ℕn. ∃n@0:ℕ. ((b^n@0 x) = y ∈ ℕn)
6. orbit : ℕn List
7. (0 ∈ orbit)
8. orbit(ℕn;b;orbit)
9. ∀y:ℕn. (y ∈ orbit)
⊢ b = cycle(orbit) ∈ (ℕn ⟶ ℕn)
BY
{ xxx(Ext THEN Auto)xxx }

1
1. n : ℕ⁺
2. ∀L:Combination(n - 1;ℕn - 1). ([n - 1 / L] ∈ Combination(n;ℕn))
3. b : ℕn ⟶ ℕn
4. Inj(ℕn;ℕn;b)
5. ∀x,y:ℕn. ∃n@0:ℕ. ((b^n@0 x) = y ∈ ℕn)
6. orbit : ℕn List
7. (0 ∈ orbit)
8. orbit(ℕn;b;orbit)
9. ∀y:ℕn. (y ∈ orbit)
10. x : ℕn
⊢ (b x) = (cycle(orbit) x) ∈ ℕn

Latex:

Latex:
1. n : \mBbbN{}\msupplus{} 2. \mforall{}L:Combination(n - 1;\mBbbN{}n - 1). ([n - 1 / L] \mmember{} Combination(n;\mBbbN{}n)) 3. b : \mBbbN{}n {}\mrightarrow{} \mBbbN{}n 4. Inj(\mBbbN{}n;\mBbbN{}n;b) 5. \mforall{}x,y:\mBbbN{}n. \mexists{}n@0:\mBbbN{}. ((b\^{}n@0 x) = y) 6. orbit : \mBbbN{}n List 7. (0 \mmember{} orbit) 8. orbit(\mBbbN{}n;b;orbit) 9. \mforall{}y:\mBbbN{}n. (y \mmember{} orbit) \mvdash{} b = cycle(orbit) By Latex: xxx(Ext THEN Auto)xxx Home Index